ВЫСОКОЭФФЕКТИВНЫЙ ФОТОЛЮМИНЕСЦЕНТНЫЙ МАТЕРИАЛ И СПОСОБ ЕГО ПРОИЗВОДСТВА

FIELD: physics, photographic material. SUBSTANCE: invention can be used when manufacturing trimming, construction material, and marking material. A transparent base material with percentage mass between 7% and 95% and viscosity of 1 Pa*s (at 20°C) or more, a photoluminescence pigment with average particle size of 150-2000 mcm or a mixture of this pigment with some other pigment, and a transparent filler are mixed. The mass ratio of the photoluminescence material to that of the pigment does not exceed 3.0. Mass ratio of the transparent filler to that of the transparent base material lies in the interval between 0.1 and 6. The transparent base material used can be gum, glass, or both. The obtained paste, construction mixture or viscous mass is hardened into a shape. The highly effective photoluminescence material can sustain light intensity of 3 mCd/m for more than 8 hours. EFFECT: highly effective photoluminescence material is obtained. 15 cl, 9 tbl, 9 ex ÐÎÑÑÈÉÑÊÀß ÔÅÄÅÐÀÖÈß RU (19) (11) 2 325 422 (13) C2 (51) ÌÏÊ C09K C03C C04B C04B C04B ÔÅÄÅÐÀËÜÍÀß ÑËÓÆÁÀ C04B ÏÎ ÈÍÒÅËËÅÊÒÓÀËÜÍÎÉ ÑÎÁÑÒÂÅÍÍÎÑÒÈ,C04B ÏÀÒÅÍÒÀÌ È ÒÎÂÀÐÍÛÌ ÇÍÀÊÀÌ (12) 11/00 14/00 14/00 14/30 14/36 16/04 20/00 (2006.01) (2006.01) (2006.01) (2006.01) (2006.01) (2006.01) (2006.01) ÎÏÈÑÀÍÈÅ ÈÇÎÁÐÅÒÅÍÈß Ê ÏÀÒÅÍÒÓ (21), (22) Çà âêà: 2003137233/15, 27.12.2002 (30) Êîíâåíöèîííûé ïðèîðèòåò: 28.12.2001 (ïï.1-15) JP 2001-401992 (73) Ïàòåíòîîáëàäàòåëü(è): ÀÂÀÈËÂÑ ÊÎÐÏÎÐÅÉØÍ (JP) (43) Äàòà ïóáëèêàöèè çà âêè: 10.06.2005 R U (24) Äàòà íà÷àëà îòñ÷åòà ñðîêà äåéñòâè ïàòåíòà: 27.12.2002 (72) Àâòîð(û): ÑÀÉÒÎ Êåíè÷èðî (JP), ÑÀÊÀÈ Ìèåêî (JP), ßÌÀÍÀØÈ Ñóìèéî (JP) (45) Îïóáëèêîâàíî: 27.05.2008 Áþë. ¹ 15 2 3 2 5 4 2 2 2 3 2 5 4 2 2 R U (85) Äàòà ïåðåâîäà çà âêè PCT íà íàöèîíàëüíóþ ôàçó: 01.04.2004 C 2 C 2 (56) Ñïèñîê äîêóìåíòîâ, öèòèðîâàííûõ â îò÷åòå î ïîèñêå: WO 98/39268 À1, 11.09.1998. JP 11158205 À, 15.06.1999. JP 10-25421 À, 27.01.1998. RU 2146272 Ñ1, 10.03.2000. RU 2166522 Ñ2, 10.05.2001. US 5976411 À, 02.11.1999. WO 98/ ...

СПОСОБ НАНЕСЕНИЯ ФОТОЛЮМИНЕСЦЕНТНОГО МАТЕРИАЛА

FIELD: physics. SUBSTANCE: invention relates to a method of applying photoluminescent material on the surface of molded polymer material of a vehicle. Method includes a step whereat photoluminescent material is dissolved in water to create a solution. Temperature of the solution is maintained at a given temperature. Surface is brought into contact with solution at preset temperature for preset time with introduction of photoluminescent material into surface. After termination of contact, the solution is washed off the surface with flushing fluid. EFFECT: invention provides photoluminescent panel-finished panels on any vehicle section for illumination and attractive unique lighting. 19 cl, 5 dwg, 1 ex РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 692 312 C2 (51) МПК C09K 11/00 (2006.01) B60Q 3/00 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК C09K 11/00 (2019.02); B60Q 3/68 (2019.02); C09K 2211/00 (2019.02) (21)(22) Заявка: 2016102849, 29.01.2016 (24) Дата начала отсчета срока действия патента: Дата регистрации: 24.06.2019 05.02.2015 US 14/614,996 (43) Дата публикации заявки: 03.08.2017 Бюл. № 22 (45) Опубликовано: 24.06.2019 Бюл. № 18 (54) СПОСОБ НАНЕСЕНИЯ ФОТОЛЮМИНЕСЦЕНТНОГО МАТЕРИАЛА (57) Реферат: Изобретение относится к способу нанесения заданного времени с обеспечением внедрения в фотолюминесцентного материала на поверхность поверхность фотолюминесцентного материала. отлитого полимерного материала транспортного После прекращения контакта раствор смывают средства. Способ содержит этап, на котором с поверхности промывочной текучей средой. фотолюминесцентный материал растворяют в Изобретение обеспечивает отделанные воде для создания раствора. Температуру фотолюминесцентным материалом панели на раствора поддерживают на заданной любом участке транспортного средства для температуре. Поверхность приводят в контакт с подсветки и привлекательного уникального раствором при заданной температуре в течение освещения. 3 ...

СИНТЕТИЧЕСКИЙ СЦИНТИЛЛЯТОР НА ОСНОВЕ ОРГАНИЧЕСКОГО ПРОДУКТА ПОЛИПРИСОЕДИНЕНИЯ

Изобретение относится к прозрачному формованному изделию для применения в качестве синтетического сцинтиллятора при определении типа и интенсивности ионизирующего и/или неионизирующего излучения. Изделие содержит: i) органический полимер. Причем в качестве по меньшей мере части органического полимера содержится продукт полиприсоединения полифункционального изоцианата с одним или несколькими полифункциональными отвердителями, где в качестве полифункциональных изоцианатов используются диизоцианаты, содержащие одно- или полициклические ароматические и/или гетероароматические остатки с NCO-группами на алифатических атомах C, и/или полифункциональный отвердитель содержит одно или несколько ароматических колец. При этом органический полимер сконфигурирован таким образом, что под действием ионизирующего и/или неионизирующего излучения испускает сцинтилляционное излучение в пределах от УФ- до ИК-спектра. И/или ii) органический полимер и добавку, где добавки представляют собой одно или несколько ...

СПОСОБ ПОЛУЧЕНИЯ ЛЮМИНОФОРА ФОСФАТА ЛАНТАНА, АКТИВИРОВАННОГО ЦЕРИЕМ И ТЕРБИЕМ

Изобретение относится к химической промышленности и может быть использовано при изготовлении люминесцентных покрытий для ламп низкого давления. Сначала смешивают органические экстракты лантана, церия и тербия из азотнокислых растворов в мольном соотношении 0,8:0,15:0,05, соответственно, и в объемном соотношении 7:1:0,8, соответственно. Объединенный экстракт смешивают с трибутилфосфатом в объемном соотношении, равном соответственно (48-50) к 1, и проводят пиролиз этой смеси при 600-700 °С в течение 2 часов. Полученный люминофор фосфат лантана, активированный церием и тербием, имеет состав LaCeTbPO, обладает максимальной интенсивностью люминесценции в области 530-560 нм и представляет собой нанодисперсный порошок с размерами частиц 40 нм.3 з.п. ф-лы, 6 пр.

СПОСОБ СИНТЕЗА ПОЛУПРОВОДНИКОВЫХ КВАНТОВЫХ ТОЧЕК

FIELD: physics. SUBSTANCE: invention relates to synthesis of nucleus- and nucleus-shell type semiconductor quantum dots through colloidal synthesis, which can be used in making different luminescent materials, as well as a base for making subminiature light-emitting diodes, white light sources, single-electron transistors, non-linear optical devices, photodetector and photovoltaic devices. The method for synthesis of semiconductor quantum dots based on chalcogenides of group II or group IV metals involves synthesis of nuclei of nanocrystals from a precursor containing chalcogen, and a precursor containing group II or IV metals, using an organic solvent and a surface modifier in form of (aminoalkyl)trialkoxysilanes. The nuclei are synthesised at constant temperature within the limits of 150 - 250°C for 15 s to 1 hour and the reaction mixture containing the nucleus of nanocrystals is further treated with UV light for 1-10 minutes and ultrasound for 5-15 minutes. EFFECT: increase in photo-stability of semiconductor quantum dots to 34%, dispersibility in non-polar and polar solvents with retention and increase of quantum yield. 9 cl, 11 ex, 1 tbl, 6 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) 2 381 304 (13) C1 (51) МПК C30B C30B C09K C09K B82B 7/00 (2006.01) 29/46 (2006.01) 11/02 (2006.01) 11/88 (2006.01) 3/00 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ, ПАТЕНТАМ И ТОВАРНЫМ ЗНАКАМ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (21), (22) Заявка: 2008134160/15, 21.08.2008 (24) Дата начала отсчета срока действия патента: 21.08.2008 (45) Опубликовано: 10.02.2010 Бюл. № 4 Адрес для переписки: 141981, Московская обл., г. Дубна, ул. 9 Мая, 7а, ФГУП "НИИ прикладной акустики", М.С. Вакштейну 2 3 8 1 3 0 4 R U (57) Реферат: Изобретение относится к получению полупроводниковых квантовых точек типов ядро и ядро-оболочка методом коллоидного синтеза, которые могут быть использованы в производстве различных люминесцентных материалов, а также в качестве основы для производства ...

6-(1,3-бензимидазол-2-ил)-7-гидрокси-замещенные спиро[бензопиран-индолины], обладающие флуоресценцией

Изобретение относится к новым соединениям в ряду спиро[бензопиран-индолинов]. Описан 6-(1,3-бензимидазол-2-ил)-7-гидрокси-замещенный спиро[бензопиран-индолин] общей формулыгде R- C-Cалкил, R- H, галоген. Технический результат - получение нового соединения, содержащего спироциклический фрагмент, обладающего интенсивной флуоресценцией с аномально высоким стоксовым сдвигом и проявляющего фотохромные свойства. 1 табл., 2 пр.

ВЫСОКОЭФФЕКТИВНЫЙ ФОТОЛЮМИНЕСЦЕНТНЫЙ МАТЕРИАЛ И СПОСОБ ЕГО ПРОИЗВОДСТВА

... 1. Высокоэффективный фотолюминесцентный материал, получаемый перемешиванием и отверждением, по меньше мере, прозрачного основного вещества и компонента, являющегося фотолюминесцентным пигментом, причем прозрачное основное вещество имеет вязкость 3 Па·с (20°С) или более и присутствует в концентрации от 7 до 95 мас.%, а компонент, являющийся фотолюминесцентным пигментом, имеет средний размер частиц от 100 до 2000 мкм. 2. Высокоэффективный фотолюминесцентный материал по п.1, в котором прозрачное основное вещество является смолой, стеклом или и тем и другим. 3. Высокоэффективный фотолюминесцентный материал по п.1, который дополнительно включает компонент, являющийся пигментом, иным, чем фотолюминесцентный пигмент. 4. Высокоэффективный фотолюминесцентный материал по п.3, в котором В/А, определяемое как массовое соотношение компонента А, являющегося фотолюминесцентным пигментом, и компонента В, являющегося иным пигментом, составляет 3,0 или менее. 5. Высокоэффективный фотолюминесцентный материал ...

СВЕТОИЗЛУЧАЮЩЕЕ УСТРОЙСТВО, ФОРМИРУЮЩЕЕ ЦВЕТНОЙ И БЕЛЫЙ СВЕТ

... 1. Светоизлучающее устройство для формирования цветного и белого света, содержащее: ! по меньшей мере, один источник (1, 4) света, испускающий голубой или ультрафиолетовый свет, ! блок (2, 5) преобразования цвета для преобразования упомянутого голубого или ультрафиолетового света в видимый свет, содержащий, по меньшей мере, две секции (2a, 2b, 2c, 6a, 6b, 6c, 6d), по меньшей мере, одна секция (2c, 6d) из которых является прозрачной или полупрозрачной секцией преобразования цвета, упомянутый блок (2, 5) преобразования цвета выполнен с возможностью попеременного освещения упомянутых, по меньшей мере, двух секций (2a, 2b, 2c, 6a, 6b, 6c, 6d) упомянутым голубым или ультрафиолетовым светом, упомянутая, по меньшей мере, одна секция преобразования цвета содержит прозрачный люминесцентный материал, при этом упомянутый прозрачный люминесцентный материал является люминесцентным органическим красителем в полимерной матрице или кристаллическим неорганическим люминесцентным материалом. ! 2. Светоизлучающее ...

ЛЮМИНОФОР И ДЕТЕКТОР ИЗЛУЧЕНИЯ

Fluoreszenz-Beobachtungsvorrichtung

Fluoreszenz-Beobachtungsvorrichtung zum Beobachten eines lebenden Organismus, in welchen ein Fluoreszenz-Farbstoff injiziert wird, wobei die Fluoreszenz-Beobachtungsvorrichtung umfasst:ein Lichtbestrahlungsmittel zum Bestrahlen des lebenden Organismus mit Anregungslicht, das eine Wellenlänge zum Anregen des Fluoreszenz-Farbstoffs beinhaltet;ein Bilderfassungsmittel zum Erfassen eines Fluoreszenz-Bildes des lebenden Organismus, das durch die Bestrahlung mit dem Anregungslicht erzeugt wird, undein Analysemittel zum Spezifizieren eines Beobachtungsobjektes im lebenden Organismus auf Basis des Fluoreszenz-Bildes, und Spezifizieren eines linearen Fluoreszenz-Musters, das im Fluoreszenz-Bild des Beobachtungsobjektes erscheint.

Verfahren zur Nachbehandlung eines aktivierten Leuchtstoffes

Leuchtstoffelement und Beleuchtungsvorrichtung

Eine Leuchtstoffvorrichtung 10 beinhaltet eine Leuchtstoffschicht 1, die aus einem Leuchtstoffglas oder Leuchtstoffeinkristall besteht, einen reflektierenden Film 2, der auf der Leuchtstoffschicht 1 vorgesehen ist, eine Verzugsunterdrückungsschicht 3, die auf dem reflektierenden Film 2 vorgesehen ist, und einen Stützkörper 4, der durch direktes Bonding an die Verzugsunterdrückungsschicht gebunden ist. Das in die Leuchtstoffschicht 1 einfallende Anregungslicht „A“ wird in Fluoreszenz umgewandelt, und das Fluoreszenz- und Anregungslicht wird vom reflektierenden Film reflektiert und von der Leuchtstoffschicht abgegeben.

Verfahren zur Verarbeitung von Leuchtstoffen fuer Leuchtstofflampen

Organic light-emitting device and method

Electroluminescent device

Cyanoalkylated pullulan polymeric resins and their admixtures with other cyanoalkylated resins are useful as dielectric binders in electroluminescent devices. The resins can be used in either the phosphor/binder layer or the barium titanate/binder layer or both. The resultant electroluminescent devices have improved brightness.

Polymer

A polymer comprising an optionally substituted repeat unit of formula (I):wherein R1 and R2 in each occurrence are independently selected from H or a substituent; R1 and R2 may be linked to form a ring; and A is an optionally substituted linear, branched or cyclic alkyl group.

Method of manufacturing fluorescent-material-containing member

A method of and an apparatus for growing crystals in a vessel of vitreous material

In a process for growing a single crystal by melting and then cooling material in a closed quartz or other vitreous vessel, where the vapour pressure of the material (e.g. the semiconducting phosphors zinc sulphide, cadmium sulphide and zinc selenide) when molten would burst the vessel which is soft at the melting point of the crystal-forming material, the vessel is enclosed in a close-fitting crucible of refractory material, the crucible and vessel are heated initially at a rapid rate so that the vessel is raised above its softening point before the crystal-forming material develops substantial vapour pressure, and heating is continued to melt the enclosed material. The material 1 is placed in a quartz tube 2 which is evacuated, sealed and inserted in a graphite crucible 4, space between the tube 2 and crucible 4 being filled with graphite powder. The crucible is then placed in a carbon tube having thick-walled ends 8 and a thin-walled central portion 9. Electric current ...

Improvements relating to activated phosphors

Specification 1,008,651 describes a method of preparing a thin layer of an activated phosphor (photo - conductive, luminescent or electro-luminescent) on a foundation by condensing on to the foundation a thin layer, e.g. 0.1 micron thick, of the unactivated phosphor (a zinc or cadmium sulphide or selenide), coating this with a layer of flux-containing activated phosphor, and heating to activate the unactivated layer; in this Specification, the flux-containing activated phosphor is prepared by mixing the host material with an activator (e.g. copper nitrate), firing at 900 DEG C. and then quenching (e.g. in water or liquid nitrogen), grinding, and mixing with a flux (e.g. sodium chloride). This results in a quenched supersaturated solution of activator in host, and when this is then heated adjacent the unactivated material, the activator readily transfers to this material; this heating may be at e.g. 450 DEG C.

Improvements in or relating to the manufacture of phosphors and fluorescent lamps

... 868.711. Pneumatic separating. GENERAL ELECTRIC CO. Ltd. July 22, 1957 [May 14, 19561. No. 14964/56. Class 117 [Also in Group XL(a)] Crystalline inorganic phosphor in the form of a finely divided powder in which substantially all the particles are of size less than about 25 microns are manufactured by a method in which the component materials are fired to form a sintered mass which is subjected to light crushing to produce an intermediate powder containing appreciable proportions of particles of sizes both less and greater than 25 microns, and the intermediate powder, or a powder derived therefrom by sieving, is subjected to an elutriation treatment which separates out mainly particles of less than 25 microns. In the elutriation treatment the powder is entrained in a stream of gas or liquid whose conditions of flow are such that particles of size appreciably greater than 25 microns fall downwards whilst particles of size appreciably less than 25 microns are carried by the stream and deposited ...

PHOTOLUMINESCENT MATERIALS

Improvements with the photoluminescent products in their mass.

PROCEDURE FOR THE MEASUREMENT OF THE RADIOACTIVITY OF A SAMPLE USING A REVERSIBLE FIXED PHASE LIQUID PHASE SCINTILLATOR.

NITROGENOUS POLYMERS AS ELECTRICAL LUMINESCENCE MATERIALS

Pathway marker, especially fire escape marker in a floor or wall

Combined thermal and chemiluminescent reaction system

A multiple-part marking system that comprises at least one first part comprising at least one oxalate ester, at least one fluoresces and at least one inorganic salt chosen from sodium thiosulphate, potassium thiosulphate, cobalt acetate, copper acetate, lead acetate, cupric chloride, ferric chloride, calcium iodide, potassium iodide, and silver nitrate; and at least one second part comprising at least one peroxide and at least one catalyst chosen from sodium salicylate, lithium salicylate, 5-chlorolithium salicylate, triazoles (e.g., 1,2,3-triazole and 1,2,4-triazole), substituted triazoles (e.g., substituted 1,2,3-triazole and substituted 1,2,4-triazole), imidazoles, and substituted imidazoles. Light and heat are emitted when the two parts interact.

Authentication of metallic objects

The present invention provides an anti-counterfeit marking technique for verifying authenticity of objects using x-ray fluorescence (XRF) analysis.

METHOD FOR PRODUCING A POLYBENZAZOLE POLYMER (P)

The invention relates to a method for producing a polybenzazol polymer (P) by reacting a reaction mixture (RG) which contains at least one aromatic dicarboxylic compound of general formula (I), at least one aromatic diamino compound of general formulae (IIa), (IIb), (IIc) and/or (IId) and at least one ionic liquid (IL). The invention also relates to the polybenzazole polymer (P) which can be obtained according to the claimed method and to the used of the polybenzazole polymer (P), for example as a fibrous material.

METHOD FOR PREPARING DIOXYHETEROCYCLE-BASED ELECTROCHROMIC POLYMERS

A method for preparing a conjugated polymer involves a DHAP polymerization of a 3,4-dioxythiophene, 3,4-dioxyfuran, or 3,4-dioxypyrrole and, optionally, at least one second conjugated monomer in the presence of a Pd or Ni comprising catalyst, an aprotic solvent, a carboxylic acid at a temperature in excess of 120 °C. At least one of the monomers is substituted with hydrogen reactive functionalities and at least one of the monomers is substituted with a CI, Br, and/or I. The polymerization can be carried out at temperature of 140 °C or more, and the DHAP polymerization can be carried out without a phosphine ligand or a phase transfer agent. The resulting polymer can display dispersity less than 2 and have a degree of polymerization in excess of 10.

A PHOSPHOR HAVING AN IMPROVED LUMINESCENSE EFFICIENCY AND A PROCESS FOR PREPARING THE SAME

A phosphor for a low voltage display device comprising a host and a metal salt or a metal oxide dispersed on the surface of the host shows an improved luminescence efficiency and can be prepared at a comparatively low temperature.

PRODUCTION OF SUBSTANTIALLY MONODISPERSE PHOSPHOR PARTICLES

The invention relates to a method for producing activated, substantially monodisperse, phosphorescent particles and particles formed thereby. The method suspends substantially monodisperse, phosphor-precursor particles in a fluidizing gas and then introduces a reactive gas to contact the suspended phosphor-precursor particles. Heating the suspended phosphor-precursor particles to a reaction temperature then forms unactivated phosphorescent particles. In another embodiment, the phosphor-precursor particles may be heated to a reaction temperature where they decompose to form the unactivated phosphor particles. The unactivated phosphorescent particles suspended within the fluidizing gas are activated by heating the unactivated phosphorescent particles to an activation temperature forming activated, substantially monodisperse, phosphorescent particles.

Mélange-maître élastomère phosphorescent et composant horloger comprenant un tel mélange.

La présente invention concerne un mélange-maître comprenant : de 40 à 95% en poids d'un pigment photoluminescent ledit pigment présentant une taille de particule limitée par tamisage à 30µm ; 5 à 60% en poids d'un polymère sous forme d'un élastomère ou d'un précurseur d'élastomère choisi parmi les polymères fluorés de la famille des FKM, la famille des polyuréthanes (TPU), les copolymères d'Ethylène vinyl acétate (EVA), les silicones, les caoutchoucs d'éthylène propylène (EPR) et leur dérivés thermoplastiques (TPO) et les élastomères acryliques.

Verfahren zur Herstellung von zum Beschichten von Unterlagen geeigneten Leuchtstoffen

Elektronenstrahlröhre mit einem Leuchtschirm.

Verfahren zur Herstellung von Calciumfluorid.

Strahlungsdosimeter

Procédé de fabrication d'un cadran à signes horaires luminescents

Procédé de préparation d'un film mince inorganique adhérant à un substrat résistant à la chaleur

Verfahren zur optischen Speicherung von Information und Aufzeichnungsträger zur Durchführung dieses Verfahrens

Verfahren zur Herstellung von Zinkselenid

Prepn of phosphors

The phosphors are prepared in a manner not requiring any ignition stage and which can be carried out at ambient temperatures and pressures and are those having a solubility less than 5 g/l at 25 degrees C. The anion and cations to form the phosphor are separately introduced into the reaction solution maintaining a concentration excess of one over the other of =1 molar. Local excess concentrations in the solution are prevented and crystals of the phosphors are grown to a size of >=0.5 microns. The particular excess is chosen to provide the most efficient luminescence of the phosphor.

Mehrschichtenscheibenanordnung

Process for obtaining a product which is photoluminescent in its bulk

The product which is photoluminescent in its bulk comprises a synthetic binder and crystalline fillers whose light transmissivity coefficient (Tr) is at its maximum in a range extending from the ultraviolet to the infrared; it additionally comprises at least one phosphorescent substance, "upstream" products drawing energy from short wavelengths ( lambda ). The above product is advantageously applied to the fields of building and of textiles. ...

A luminescent article of manufacture and a method of making the same.

L'invention concerne un objet manufacturé (10) au moins partiellement constitué d'un matériau élastomère, tel que notamment un caoutchouc ou mélange de caoutchoucs. Ledit matériau élastomère comporte un composé capable de luminescence, et présente ainsi au moins par endroits un caractère luminescent. L'invention concerne également un procédé réalisation d'un tel objet, comportant les étapes suivantes : a. se doter d'une préparation de matière élastomère comportant un composé capable de luminescence, b. apposer ladite préparation de matière élastomère comportant un composé capable de luminescence sur tout ou partie d'un composant de matière élastomère de nature complémentaire, c. mouler la préparation de matière élastomère comportant un composé capable de luminescence sur ledit composant de manière à réticuler au moins partiellement ladite préparation sur ledit composant dans un moule de forme idoine pour former au moins une ébauche dudit objet manufacturé ou une partie de celui-ci comportant ...

Process for the development of the luminosity of the phosphorescent matters

Glazings with several layers

PROCEDE DE PREPARATION DE CRISTAUX FINS DE SUBSTANCES MINERALES OU ORGANIQUES

L'invention est relative à un procédé de préparation de cristaux fins de substances minérales ou organiques. On exerce une action physique ou chimique sur une solution d'un soluté ou de plusieurs solutés dans un solvant ou un mélange de solvant, de telle façon que la phase de cristallisation à partir de ladite solution s'effectue au sein d'un lit de microélements, notamment, de billes, maintenus en mouvement. Application à la préparation de cristaux fins présentant une très bonne homogénéite morphologique et une répartition granulométrique étroite.

IMPROVEMENT WITH THE PHOTOLUMINESCENT PRODUCTS IN THEIR MASS

Improvements with the dosemeters for radiations

Manufactoring process of single-crystal luminous screens

PROCESS FOR THE PREPARATION OF FINE CRYSTAL MINERAL OR ORGANIC SUBSTANCES

SENSITIVE LUMINESCENCE COMPOSITION

LIQUID SILANE-BASED COMPOSITIONS AND METHODS OF FABRICATION

QUANTUM DOT DISPERSANT, MANUFACTURING METHOD THEREOF, COLOR FILTER AND IMAGE DISPLAY DEVICE

A quantum dot dispersant according to the present invention includes: quantum dot; a surface treating agent comprising a phosphoric acid ester compound; and a polar solvent, wherein the surface treating agent comprising the phosphoric acid ester compound is contained with 1 to 250 wt% with respect to 100 wt% of a total solid content of the quantum dots. Disclosed are the quantum dot dispersant excellent in quantum efficiency and dispersibility, and a self-emitting photosensitive resin composition comprising the same. COPYRIGHT KIPO 2018 ...

방사선 검출기 및 신틸레이터 패널

... 본 발명의 방사선 검출기(1)는 복수의 수광소자가 배열된 광전변환기판(21)과, 상기 광전변환기판상에 형성되고 방사선을 광으로 변환하는 형광체층을 구비한다. 상기 형광체층의 발광 스펙트럼은 510~550㎚의 파장영역에 주피크를 갖고, 또한 이 주피크보다 장파장 영역에 부피크를 갖는다.

입자, 광학 시트, 스크린, 표시 장치, 입자 검사 장치 및 입자 제조 장치, 그리고 입자 검사 방법, 입자 제조 방법, 스크린 검사 방법 및 스크린 제조 방법

... 본 발명은 스페클을 저감시키는 것이 가능하며, 또한 색 변화에 수반한 화질의 열화를 효과적으로 회피하는 것이 가능한 입자, 광학 시트, 스크린, 표시 장치, 입자 검사 장치 및 입자 제조 장치, 그리고 입자 검사 방법, 입자 제조 방법, 스크린 검사 방법 및 스크린 제조 방법을 제공하는 것이다. 입자는 비유전율이 상이한 제1 부분(61)과 제2 부분(62)을 포함하고, 제1 부분(61)과 제2 부분(62)은 비가시광의 파장의 반사율 또는 반사율 스펙트럼, 혹은 비가시광의 파장의 투과율 또는 투과율 스펙트럼이 상이하다.

COMPOSITION HAVING ULTRA-HIGH SENSITIVITY AND HIGH SELECTIVITY FOR DETECTING COPPER ION AND FLUORESCENT CHEMICAL SENSOR

The present invention relates to a composition having ultra-high sensitivity and high selectivity for detecting a copper ion; a fluorescent chemical sensor comprising the same; a method for manufacturing the same; a method for selectively detecting a copper ion; a method for screening a copper ion chelating agent; and a method for confirming a chelating effect of a copper ion chelating agent. The present invention is applicable in detecting a copper ion in water from a river, lake, ocean, or the like, and bio-samples, such as plasma, serum, and urine, and is applicable in high-rate mass-screening for evaluating the effect of the existing copper ion chelating agent and developing novel copper ion chelating agents. Further, the copper ion can be qualitatively and quantitatively detected in the serum in cells and in the body, and the present invention is applicable as a disease diagnosing kit.

METHOD FOR MANUFACTURING A FLUORESCENT RESIN FILM AND FLUORESCENT RESIN FILM MANUFACTURED THEREBY

The present invention relates to a method for manufacturing a fluorescent resin film and to a fluorescent resin film manufactured thereby. More particularly, the present invention relates to the method for manufacturing the fluorescent resin film, which comprises the steps of: mixing a polymer resin and a latent curing agent with a solvent to prepare a polymer slurry; spreading the polymer slurry into a film shape; drying the applied polymer slurry to form a semi-cured resin film; and placing a fluorescent powder onto the semi-cured resin film. The present invention further relates to the semi-cured resin film, which includes the polymer resin and the latent curing agent, and to the fluorescent resin film in which one surface of the semi-cured resin film is uniformly coated with the fluorescent powder.

SYNTHESIS OF QUANTUM DOT/POLYMER/LAYERED-STRUCTURE CERAMIC COMPOSITE

The present invention relates to a quantum dot and a preparation method therefor, and more specifically, to a novel quantum dot composite having high surface stability, and a preparation method therefor. The quantum dot composite according to the present invention constitutes a layered-structure ceramic composite in which the layered-structure ceramic comprises a polymer-quantum dot composite between the layers thereof.

Nitrogen-containing polymers as electroluminescent materials

PCT No. PCT/EP95/03836 Sec. 371 Date Mar. 28, 1997 Sec. 102(e) Date Mar. 28, 1997 PCT Filed Sep. 28, 1995 PCT Pub. No. WO96/10598 PCT Pub. Date Apr. 11, 1996The invention relates to nitrogen-containing polymers containing structural units of formula (I), (I) where the symbols and indices have the following meanings: Ar1, Ar2, Ar3 are, identically or differently, mono- and/or polynuclear and/or condensed aryl and/or heteroaryl groups which may or may not be linked via one or more bridges carbon atoms, which may or may not be substituted; X is a single bond, -O-, -S-, -SO-, -SO2, NR3, -CR4R5-, -CO-, -CR6=CR7, CR8R9-CR10R11 or SiR12R13; R1-R13 are, identically or differently, H, a hydrocarbon radical having from 1 to 22 carbon atoms or Ar4, where Ar4, identical with or different from Ar1, has the same meanings as Ar1; n=1, 2 or 3.

GLASS PHOSPHOR COLOR WHEEL AND METHODS FOR PRODUCING THE SAME

A glass phosphor color wheel includes a wheel body made of a glass phosphor formed by sintering a glass material and fluorescent powder. The fluorescent powder is a fluorescent material selected from the group consisting of yttrium aluminum garnet, nitride, silicate, aluminate, and oxynitride. The glass material is selected from the group consisting of a silicate system, a phosphor system, a borate system, and a tellurate system. A method for producing a glass phosphor color wheel includes concentrically placing an inner tube into an outer tube. The glass material and the fluorescent powder are placed between the outer and inner tubes and are formed into a wheel body. In another method, the glass material and the fluorescent powder are sintered at a temperature of 500-1000° C. to form at least one glass phosphor color block that is subsequently coupled to a substrate to form a glass phosphor color wheel.

LUMINESCENT MATERIAL WITH TEXTURED PHOTONIC LAYER

The invention relates to a luminescent material comprising a face coated with a textured layer, the texture of said layer comprising identical features distributed uniformly over said face, said layer decreasing the angle of the extraction cone of light emitted by said luminescent material and passing through said face. The luminescent material may be of the scintillator type or of the wavelength converter type.

Ultrafine grain fluorescent body

An ultrafine grain fluorescent body comprises an ultrafine grain luminescent material containing an activator and having a surface carrying thereon a layer which is formed from a different material from the luminescent material, or which has different properties from those of the luminescent material. The layer forms a heterojunction or p-n junction defining a luminescent mechanism in an interface between the luminescent material and the layer. The heterojunction is formed if the layer is a film of oxide, nitride or any other different substance formed on the surface of the luminescent material, e.g. ZnS, having a grain size of several hundred to several thousand angstroms. Alternatively, the p-n junction is formed if the luminescent material is a p-type (or n-type) semiconductor, and if the layer is a film of an n-type (or p-type) semiconductor formed on the surface thereof. The fluorescent body of this invention is useful for making an electroluminescent (EL) element having a high luminance ...

Фотостабильный и яркий флуоресцентный бордипиррометеновый краситель

Изобретение относится к области органической химии, а именно к новым производным бордипиррометена. Предложено соединения общей формулы I, где R означает O(CH2)1-10CH3, NH-(CH2)1-12N3, а также применение соединения. Технический результат: увеличение стабильности при сохранении высокого квантового выхода. 2 н.п. ф-лы, 3 табл., 2 ил.

Patent RU2016103134A3

ВУ“? 2016103134” АЗ Дата публикации: 18.06.2019 Форма № 18 ИЗ,ПМ-2011 Федеральная служба по интеллектуальной собственности Федеральное государственное бюджетное учреждение 5 «Федеральный институт промышленной собственности» (ФИПС) ОТЧЕТ О ПОИСКЕ 1. . ИДЕНТИФИКАЦИЯ ЗАЯВКИ Регистрационный номер Дата подачи 2016103134/11(00473Т) 01.02.2016 Приоритет установлен по дате: [ ] подачи заявки [ ] поступления дополнительных материалов от к ранее поданной заявке № [ ] приоритета по первоначальной заявке № из которой данная заявка выделена [ ] подачи первоначальной заявки № из которой данная заявка выделена [ ] подачи ранее поданной заявки № [Х] подачи первой(ых) заявки(ок) в государстве-участнике Парижской конвенции (31) Номер первой(ых) заявки(ок) (32) Дата подачи первой(ых) заявки(ок) (33) Код страны 1. 14/617,177 09.02.2015 05 Название изобретения (полезной модели): [Х] - как заявлено; [ ] - уточненное (см. Примечания) СИСТЕМА ПОДСВЕТКИ ДЛЯ ТРАНСПОРТНОГО СРЕДСТВА (ВАРИАНТЫ) И СПОСОБ ПОДСВЕТКИ НАРУЖНОИ ОБЛАСТИ ТРАНСПОРТНОГО СРЕДСТВА Заявитель: ФОРД ГЛОУБАЛ ТЕКНОЛОДЖИЗ, ЭлЭлСи, ЦЗ 2. ЕДИНСТВО ИЗОБРЕТЕНИЯ [Х] соблюдено [ ] не соблюдено. Пояснения: см. Примечания 3. ФОРМУЛА ИЗОБРЕТЕНИЯ: [Х] приняты во внимание все пункты (см. Примечания) [ ] приняты во внимание следующие пункты: [ ] принята во внимание измененная формула изобретения (см. Примечания) 4. КЛАССИФИКАЦИЯ ОБЪЕКТА ИЗОБРЕТЕНИЯ (ПОЛЕЗНОЙ МОДЕЛИ) (Указываются индексы МПК и индикатор текущей версии) Вб0О 1/24 (2006.01) Вб00 1/30 (2006.01) Е215 43/13 (2018.01) Вб0О 1/26 (2006.01) Е215 41/16 (2018.01) Е215 43/145 (2018.01) 5. ОБЛАСТЬ ПОИСКА 5.1 Проверенный минимум документации РСТ (указывается индексами МПК) ВбОО 1100 - 1/54, Е215$ 41/00 - 41/16, 43/00 - 43/3. 5.2 Другая проверенная документация в той мере, в какой она включена в поисковые подборки: 5.3 Электронные базы данных, использованные при поиске (название базы, и если, возможно, поисковые термины): Езрасепе, Рабеагсв 6. ДОКУМЕНТЫ, ОТНОСЯЩИЕСЯ К ПРЕДМЕТУ ПОИСКА Кате ...

ОСВЕТИТЕЛЬНОЕ УСТРОЙСТВО С ПОЛИМЕРСОДЕРЖАЩИМИ МАТРИЦАМИ

... 1. Осветительное устройство (1), включающее в себя (a) источник (100) света, предназначенный для получения света (110) источника света, и (b) прозрачное преобразовательное устройство (200), предназначенное для преобразования по меньшей мере части света (110) источника света, при этом прозрачное преобразовательное устройство (200) включает в себя первую полимерсодержащую матрицу (201), содержащую отдельные частицы (210), при этом отдельные частицы (210) включают в себя вторую полимерсодержащую матрицу с молекулярно диспергированным в ней люминесцентным материалом (212), при этом люминесцентный материал (212) включает органический краситель.2. Осветительное устройство (1) по п. 1, при этом отдельные частицы (210) имеют размеры в интервале 0,1 мкм-5 мм.3. Осветительное устройство (1) по любому из предшествующих пунктов, при этом отдельные частицы (210) имеют соотношения размеров по длине/ширине по меньшей мере 2.4. Осветительное устройство (1) по п. 1 или 2, при этом первая полимерсодержащая ...

Verfahren und Vorrichtung zum Zerlegen eines lumineszierenden Pulvers

Herstellung von Leuchtstoffen

Improvements in or relating to materials for electric discharge lamps adapted to be excited to iuminescence by the electric discharge

... 447,202. Luminescent material in electric discharge lamps. GENERAL ELECTRIC CO., Ltd., Magnet House, Kingsway, London.-(Patent - Treuhand-Ges. f³r Elektrische Gl³hlampen; 11, Ehrenbergstrasse, Berlin) Nov. 19, 1934, No. 33232. [Class 39 (i)] [See also Group XX] Luminescent material consisting mainly of zinc silicate for use in a lamp, such as a mercuryvapour lamp which may contain also a rare gas in order to yield approximately whitelight, is subjected to the usual heat treatment, and thereafter ground preferably to a grainsize of about 1Á. to 5Á. The silicate may contain manganese in the proportion 0À1 to 0À5 per cent. The material may be deposited on the walls of the lamp, or on a screen inside or outside the lamp with the aid of a binder such as glycerine, boric acid, or water glass. If a thin layer which transmits the light from the lamp is used, the thickness of the layer may be adjusted to obtain various shades of daylight. Specifications 391,887; and 410,159, [Group XX], are referred ...

Composite particles

The present invention provides composite particles which have magnetism and simultaneously emit fluorescence with a variety of wavelengths, and which are suitable for use in the fields of biology, biochemistry or the like. The composite particles of the present invention comprise ferromagnetic iron oxide particles, fluorescent pigment particles and silica, and have an average particle size of 1 to 10 žm, a coercive force of 2.39 to 11.94 kA/m (30 to 150 oersted), saturation magnetization of 0.5 to 40 A.m<2>/kg (0.5 to 40 emu/g). The peak value of the wavelength of fluorescence from the composite particle is in the range of 350 to 750 nm, when the composite particle is excited by light with a wavelength of 250 to 600 nm.

An implement for administrating medicine in poor light conditions

An implement, such as a spoon, that has luminescent properties, thereby allowing the user to administer medicine in poor light conditions. Preferably the implement glows when taken from a light area into a dark area. The spoon consists of a central bar 1 with two different sized bowls 2, 3 at either end, where each bowl is marked with its calibrated volume.

Method of monitoring a hydrocarbon reservoir

Materials

Improvements in and relating to the activation of phosphors and photoconductive materials

A luminescent or electro-luminescelent screen is prepared by (a) condensing a thin layer of unactivated Zn or Cd.S or Se on to a substrate, e.g. a glass plate, (b) separately preparing a mixture of the unactivated phosphor and an activator, e.g. Cu, Ag or Mn, and firing the mixture to prepare activated phosphor, (c) mixing this activated phosphor with a flux, and then (d) heating the thin unactivated phosphor layer, e.g. for 30 mins. at 500 DEG C., in contact with the activated, flux-containing phosphor so that some of the activator is transferred uniformly into the thin condensed phosphor layer. The thin luminescent layer may be 0.1-1.0 m thick, the electroluminescent layer 1-5 m thick. The flux may be e.g. an alkali, cadmium, zinc or ammonium halide or borate.

Preparation of zinc sulphide luminescent materials

Zinc sulphide phosphors are prepared by heating, to confer luminescence, a mixture of pure zinc oxide, a purified ammonium or alkali metal thiosulphate (e.g. sodium), and one or more further ingredients necessary for the formation of the luminescent material (e.g. BaCl2, NaCl, CuSO4, MgCl2 and CdS). The heating may be done in two stages, e.g. at 400-800 DEG C. and then at 950 DEG or 1100 DEG C., at least one luminescence inducing ingredient being added prior to the initial heating. The product from either stage may be washed with water and 5% acetic acid, and from the final stage with 3% KCN.ALSO:A method of preparing a highly purified zinc sulphide is combined with the preparation of a luminescent material by mixing together pure zinc oxide, a purified ammonium or alkali metal thiosulphate (e.g. sodium), and one or more further ingredients necessary for the formation of the luminescent material, and heating the mixture to confer luminescence. The heating may be done in two stages, e.g.

Improvements in Processes for Producing Peculiar Luminous Effects on Stages and the like.

... 13,205. Saubermann, S. June 9, 1911, [Convention date]. Theatrical appliances.-Objects on stages &c. are rendered luminous by coating them with fluorescent substances and causing invisible ether impulses, such as ultra-violet rays, Rontgen rays, &c., to fall upon them.

METHODS OF PRODUCING LUMINESCENT MATERIALS

... 1284882 Luminescent materials and uses thereof WESTERN ELECTRIC CO Inc 11 Aug 1969 [12 Aug 1968] 40025/69 Heading C4S A method of producing a luminescent material comprises evaporating a luminescent compound of fluorine and an element from Cr, Mn, Fe, Co, Ni, Cu, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm and Yb and a host material on a substrate so that each is uniformly dispersed and the compound substantially undissociated. The compound may be in amount 0À1 to 10 molar per cent, up to 30 and 35 mole per cent also being instanced and may be YbF 3 , NdF 3 , ErF 3 , TmF 3 , HoF 3 , TbF 3 , PrF 3 , DyF 3 , EuF 3 and EuF 2 vaporized between 900‹ to 1000‹ and 1200‹ C. and the host may be ZnS vaporized between 910‹ and 1000‹ C. (800‹ C. also instanced). The substrate may be at room temperature and the pressure 10-5 to 10-5 mms. Hg. Fluorides of the transition metals are instanced such as 0À1 to 0À5 mol. per cent MnF 2 vaporized at 600‹ to 900‹ C. with a ZnS host. Impurities ...

PHOTOLUMINESCENT MATERIAL

... 1484471 Luminescent resin compositions PELA GRAVISSE 4 June 1974 24669/74 Headings C3B C3P and C3R [Also in Division C4] A photoluminescent material comprises a siliceous filler (e.g. ground quartz glass or ground quartz) which is transmissive of visible light and u.v. radiation in a matrix either of a binder which is visible light and u.v. radiation transmissive or a binder system which is visible light transmissive and is u.v. radiation energy transmissive the matrix containing a crystalline phosphorescent substance, e.g. ZnS containing 0À3% atomic wt. of Cu and an aromatic compound (e.g. anthracene) absorbing radiation in a first wavelength band and re-emitting in a further waveband within the absorption spectrum of the phosphorescent substance. "U.v. radiation energy transmissive" as applied to the binder system denotes a system in which the binder itself is not u.v. transmissive, but it is dissolved in a solvent which picks up energy from a u.v. band and re-emits it in a higher waveband ...

PRODUCTION OF ESSENTIALLY MONODISPERSEN PHOSPHORUS PARTICLES

Device for measuring a property of a measurement object by luminescence

A device for monitoring a measurement object (107b), comprising: an active unit (115) having a light source (101) emitting light with a wavelength spectrum and an optical detector (109). An optical link (104a, 104b) passes the emitted light to a at least one passive unit (117). Each passive unit comprises a sensor (106) and a selector (105) for diverting the emitted light to the sensor. The sensor comprises a luminescent material (332, 342, 905, 1002, 1107, 1109) being directly or indirectly affected by the emitted light diverted by the selector (105). The sensor (106) is sensitive to an external influence (107a, 107a', 107a'') by the measurement object (107b) for producing a modulated signal, which is passed to said detector (109) via the optical link (104a). The luminescent material may be a fluorescent material, which is directly irradiated by the emitted light from the light source.

MATERIAL CONTAINING PIGMENTS, PARTICULARLY LUMINESCENT PIGMENTS, AND METHOD FOR PREPARING SAME

... 2099004 9309189 PCTABS00162 Le revêtement selon l'invention comporte des pigments, notamment luminescents. Il est constitué d'au moins un liant (2), de billes (6) en verre par exemple, et de pigments (3) de telle façon que les billes (6) soient jointives à l'intérieur du revêtement et réparties sensiblement sur toute son épaisseur, les pigments (3) étant contenus dans le liant (2) entre les billes (6) de manière à être protégés mécaniquement et répartis de façon homogène à l'intérieur du revêtement.

Hybrid material for use as coating means in optoelectronic components

Improvements with the processes of purification of luminescent substances

Glass vase with metal walls or other surrounding them

Luminescent products and mode of preparation

IMPROVEMENT WITH THE PHOTOLUMINESCENT PRODUCTS IN THEIR MASS

Comprising material of the pigments, in particular luminescent, and its process of obtaining

Le revêtement selon l'invention comporte des pigments, notamment luminescents. Il est constitué d'au moins un liant (2), de billes (6) en verre par exemple, et de pigments (3) de telle façon que les billes (6) soient jointives à l'intérieur du revêtement et réparties sensiblement sur toute son épaisseur, les pigments (3) étant contenus dans le liant (2) entre les billes (6) de manière à être protégés mécaniquement et répartis de façon homogène à l'intérieur du revêtement.

양자점 분산체, 이의 제조 방법, 컬러필터 및 화상표시장치

... 본 발명에 따른 양자점 분산체는 양자점; 인산 에스테르계 화합물을 포함하는 표면처리제; 및 극성 용제;를 포함하고, 상기 인산 에스테르계 화합물을 포함하는 표면처리제는 상기 양자점 고형분 전체 100 중량부에 대하여 1 내지 250 중량부로 포함되는 것을 특징으로 한다.

SBA-15 기반의 불소이온 검출용 형광센서 및 이를 이용한 불소이온 검출방법

... 본 발명은 SBA-15 기반의 불소이온 검출용 형광센서 및 이를 이용한 불소이온 검출방법에 관한 것으로, 더욱 상세하게는 아미노기를 갖는 알콕시실란으로 기능화된 SBA-15의 표면에 실릴 에테르로 보호된 플루오레세인 이소티오시아네이트가 공유결합한 것을 특징으로 하는 불소이온 검출용 형광센서 및 이를 이용한 불소이온 검출방법에 관한 것이다. 본 발명의 불소이온 검출용 형광센서는 종래의 화학센서에 비해 수성 매질에서 불소 이온에 대해 높은 선택성 및 감도를 나타내며, 제조방법이 간단하고, 사용하는 아미노 실란의 종류에 따라 다양한 감지 한계값을 갖는 강력한 형광 턴-온 불소이온 감지 시스템을 제공할 수 있다.

METHOD FOR MANUFACTURING PEROVSKITE NANOCRYSTAL PARTICLES

Method for transferring gas barrier film, gas barrier film, wavelength conversion film, gas barrier layer, retardation film, and organic EL laminate

An Electrochemical Light Emitting Element

형광체 부착 유리 분말 및 파장 변환 부재의 제조 방법 그리고 파장 변환 부재

... 무기 나노 형광체 입자를 양호한 상태로 분산시킬 수 있는 형광체 부착 유리 분말의 제조 방법, 그 제조 방법을 사용한 파장 변환 부재의 제조 방법 및, 파장 변환 부재를 제공한다. 유리 분말 (2) 의 표면에 무기 나노 형광체 입자 (3) 를 부착시킨 형광체 부착 유리 분말 (1) 을 제조하는 방법으로서, 무기 나노 형광체 입자 (3) 가 분산매에 분산된 액 중에서, 무기 나노 형광체 입자 (3) 와 유리 분말 (2) 을 접촉시키는 공정과, 액 중의 분산매를 제거함으로써, 유리 분말 (2) 의 표면에 무기 나노 형광체 입자 (3) 를 부착시키는 공정을 구비하는 것을 특징으로 하고 있다.

Display device, screen panel and phosphor material composition thereof

In an embodiment, a phosphor material composition comprises a phosphor powder and an additive, wherein the additive has an amount in a range of about 0.1%~20% of the phosphor powder in weight. The material of the additive is selected from the group consisting of an energy absorption material and a conductive material and a combination thereof. In another embodiment, a phosphor material composition including a phosphor powder and an additive is provided, wherein the additive has an amount of 2.8ppm~32000ppm. The material of the additive is also selected from the group consisting of an energy absorption material and a conductive material and a combination thereof.

SURFACE-PASSIVATED QUANTUM DOTS AND METHOD FOR PASSIVATING SURFACE OF QUANTUM DOTS

The present invention provides a quantum dot of which a surface is passivated with a short chain ligand, and a method of passivating a surface of the quantum dot using a ligand exchange reaction.

Radiation image conversion panel and method for producing same

In a radiation image conversion panel ( 10 ), a radiation conversion layer ( 2 ) for converting an incident radiation into light is formed on a substrate ( 1 ). The radiation conversion layer ( 2 ) has a reflective layer ( 3 ), on a side opposite from a light exit surface ( 2 a ) for emitting the light, for reflecting the light to the exit surface ( 2 a ) side, while the reflective layer ( 3 ) has a helical structure comprising helically stacked phosphor crystals. Thus constructed radiation image conversion panel ( 10 ) can enhance the reflectance without forming a reflective layer made of a thin metal film or the like and exhibit a reflectance higher than that in the case where the reflective layer is formed by spherical crystal particles.

Combined thermal and chemiluminescent reaction system

A multiple-part marking system that comprises at least one first part comprising at least one oxalate ester, at least one fluorescer, and at least one inorganic salt chosen from sodium thiosulphate, potassium thiosulphate, cobalt acetate, copper acetate, lead acetate, cupric chloride, ferric chloride, calcium iodide, potassium iodide, and silver nitrate; and at least one second part comprising at least one peroxide and at least one catalyst chosen from sodium salicylate, lithium salicylate, 5-chlorolithium salicylate, triazoles (e.g., 1,2,3-triazole and 1,2,4-triazole), substituted triazoles (e.g., substituted 1,2,3-triazole and substituted 1,2,4-triazole), imidazoles, and substituted imidazoles. Light and heat are emitted when the two parts interact.

System, method and apparatus for forensic marking

A forensic marker is disclosed including a marker that is added to the host material and is detectable for at least the expected life of the host material. The marker is inert with respect to the host material in that it does not significantly affect the desired qualities of the host material (e.g. weight, adhesive properties, structural integrity, etc). The marker is detectable, for example, by instruments, during the life of the host material.

Phosphorescent compositions and use thereof

Disclosed is a phosphorescent composition which contains lead-free glass powder and phosphorescent pigment. The composition is in particular suitable for producing dyes, paints and glass articles.

SEMICONDUCTOR NANOPARTICLE AGGREGATE AND PRODUCTION METHOD FOR SEMICONDUCTOR NANOPARTICLE AGGREGATE

A semiconductor nanoparticle aggregate containing semiconductor nanoparticles with a core/shell structure is formed by controlling with physical energy the aggregation state of an agglomerate from agglomerated semiconductor nanoparticles. 1. A semiconductor nanoparticle aggregate containing semiconductor nanoparticles having a core/shell structure , whereinan agglomeration state of an agglomerate made by agglomerating the semiconductor nanoparticles is controlled by using physical energy, thereby forming the semiconductor nanoparticle aggregate.2. The semiconductor nanoparticle aggregate according to claim 1 , wherein a coating structure is formed so as to coat the agglomerate made by agglomerating the semiconductor nanoparticles claim 1 , thereby forming the semiconductor nanoparticle aggregate.3. The semiconductor nanoparticle aggregate according to claim 1 , wherein a raw material that configures the coating structure is hydrophilic polymer.4. The semiconductor nanoparticle aggregate according to claim 1 , wherein the raw material that configures the coating structure is polyvinyl alcohol.5. The semiconductor nanoparticle aggregate according to claim 1 , wherein a raw material that configures a shell part of the semiconductor nanoparticle having the core/shell structure is zinc sulfide (ZnS) or silicon dioxide (SiO).6. The semiconductor nanoparticle aggregate according to claim 1 , wherein a raw material that configures a core part of the semiconductor nanoparticle having the core/shell structure is a simple substance or a compound selected from a group of indium phosphide (InP) claim 1 , cadmium selenide (CdSe) claim 1 , and cadmium telluride (CdTe).7. The semiconductor nanoparticle aggregate according to claim 1 , wherein an average particle size thereof is in a range from 30 to 300 nm.8. The semiconductor nanoparticle aggregate according to claim 1 , wherein a variation coefficient of particle size thereof is in a range from 0.02 to 0.2.9. A semiconductor ...

Fluid Conveying Conduit

A fluid-containing conduit ( 10,30,40,50 ) including at least one luminescent marker ( 14 ) whereby the fluid-containing conduit is visible in a low light condition. The marker may be in the form of one or more elongate ribs ( 16 ) containing luminescent material along interior wall surface ( 18 ), or may be elongate luminescent bands ( 52,54 ) adjacent the exterior wall ( 20 ) of the conduit, or may be indicia containing luminescent material such as ink ( 42 ).

OPTICAL COMPONENT AND ITS METHOD OF MANUFACTURE, AND LIGHT EMITTING DEVICE AND ITS MEHTOD OF MANUFACTURE

An optical component includes a support member having a through-hole, a second light-transmissive member disposed inside the through-hole, and having a light incidence face, a light emission face, and an outer peripheral side surface, and at least one functional film selected from a group consisting of a short pass filter, a long pass filter, and a heat dissipation member and disposed on a surface of the second light-transmissive member. 1. An optical component comprising:a support member having a through-hole;a second light-transmissive member disposed inside the through-hole, and having a light incidence face, a light emission face, and an outer peripheral side surface;a heat dissipation member made of sapphire, and disposed below a lower most part of the support member, the heat dissipation member being thermally in contact with the support member; andat least one functional film disposed between the support member and the heat dissipation member, the at least one functional film being spaced apart from the second light-transmissive member.2. The optical component according to claim 1 , whereinthe second light transmissive member contains a phosphor which converts wavelength of light emitted from light source.3. The optical component according to claim 1 , whereinthe second light-transmissive member is made of ceramic.4. The optical component according to claim 3 , whereinthe second light-transmissive member contains a phosphor which converts wavelength of light emitted from light source.5. The optical component according to claim 1 , further comprisinga third light-transmissive member that covers the light emission face of the second light-transmissive member.6. The optical component according to claim 5 , whereinthe third light-transmissive member includes a phosphor.7. The optical component according to claim 5 , whereinthe third light-transmissive member includes a filler.8. The optical component according to claim 1 , whereina lower surface of the second ...

Wavelength conversion material, backlight unit, image display device, and curable composition

A wavelength conversion material contains a cured product of a curable composition that contains a (meth)allyl compound, a (meth)acryl compound, a photopolymerization initiator, and a quantum dot phosphor.

PROCESSES FOR SYNTHESIZING NANOCRYSTALS

A process of synthesizing Ga—Se nanocrystals is provided, the process including: 115.-. (canceled)16. A nanoparticle including a nanocrystal of a compound represented by Chemical Formula 1 or Chemical Formula 1-1:{'br': None, 'sub': x', 'y, 'GaSeA\u2003\u2003[Chemical Formula 1]'}{'br': None, 'sub': 'x', 'GaSe\u2003\u2003[Chemical Formula 1-1]'}wherein x is about 1.1 to 1.5, y is about 0.1 to 4, and A is S, Te, N, P, As, Al, In, Zn, Cd, Mg, Mn, Ag, Au, or a combination thereof.171. The nanoparticle of claim , wherein the nanoparticle comprises the nanocrystal of the compound represented by Chemical Formula 1-1.181. The nanoparticle of claim , wherein x is greater than or equal to about 1.2191. The nanoparticle of claim , wherein x is less than or equal to about 1.36.201. The nanoparticle of claim , wherein the nanocrystal of the compound represented by Chemical Formula 1 or Chemical Formula 1-1 is a selenium-rich Ga—Se nanocrystal.211. The nanoparticle of claim , wherein the A is S , Te , N , P , As , Al , Zn , Cd , Mg , Mn , Ag , Au , or a combination thereof.221. The nanoparticle of claim , wherein the nanoparticle has a core shell structure comprising a first nanocrystal and the nanocrystal of the compound represented by Chemical Formula 1 or Chemical Formula 1-1 is disposed on a surface of the first nanocrystal.23. The nanoparticle of claim 22 , wherein the first nanocrystal comprises a Group II-VI compound claim 22 , a Group III-V compound claim 22 , a Group IV-VI compound claim 22 , or a combination thereof.24. The nanoparticle of claim 23 , wherein the Group III-V compound further includes a Group II metal.25. The nanoparticle of claim 22 , wherein the first nanocrystal comprises a Group semiconductor nanocrystal core.26. The nanoparticle of claim 22 , wherein the first nanocrystal is a core-shell type semiconductor nanocrystal.27. The nanoparticle of claim 22 , wherein the first nanocrystal comprises ZnS claim 22 , ZnSe claim 22 , ZnTe claim 22 , ZnO claim ...

NANOCRYSTAL POLYMER COMPOSITES AND PRODUCTION METHODS THEREOF

A semiconductor nanocrystal composition including a semiconductor nanocrystal, an organic additive, and at least one polymerizable substance selected from a polymerizable monomer, a polymerizable oligomer, and a combination thereof, wherein the composition has haze of greater than or equal to about 40% after polymerization. 1. A display device comprising a layer of a semiconductor nanocrystal-polymer composite ,wherein the semiconductor nanocrystal-polymer composite comprises:a semiconductor nanocrystal,an organic additive, anda polymerization product of at least one polymerizable substance selected from a polymerizable monomer, a polymerizable oligomer, and a combination thereof, andwherein the organic additive comprises a primary amine having one C8 to C30 alkyl or alkenyl group, a secondary amine having two C8 to C30 alkyl or alkenyl groups, a tertiary amine having three C8 to C30 alkyl or alkenyl groups, a primary phosphine having one C8 to C30 alkyl or alkenyl group, a secondary phosphine having two C8 to C30 alkyl or alkenyl groups, a tertiary phosphine having three C8 to C30 alkyl or alkenyl groups, a primary phosphine oxide having one C8 to C30 alkyl or alkenyl group, a secondary phosphine oxide having two C8 to C30 alkyl or alkenyl groups, a tertiary phosphine oxide having three C8 to C30 alkyl or alkenyl groups, or a combination thereof.2. The display device of claim 1 , wherein the semiconductor nanocrystal-polymer composite has a haze of greater than or equal to 40%.3. The display device of claim 1 , wherein the polymerizable substance comprises a polymerizable monomer and a polymerizable oligomer.4. The display device of claim 1 , wherein the semiconductor nanocrystal comprises a Group II-VI compound claim 1 , a Group III-V compound claim 1 , a Group IV-VI compound claim 1 , a Group IV element or compound claim 1 , or a combination thereof.5. The display device of claim 1 , wherein the semiconductor nanocrystal has a core-shell structure.6. The display ...

Liquid capsule having thermochromic and photochromic properties

The invention relates to a capsule comprising a shell containing a transparent and thermally conducting liquid, particles having a thermochromic coating and particles having a photochromic coating, the thermochromic particles being bulkier than photochromic particles, the liquid being such that, within a first range of temperatures, its density is greater than the density of the thermochromic particles and than the density of the photochromic particles, and such that, within a second range of temperatures greater than those of the first range, the density of the photochromic particles is less than the density of the liquid, which is itself less than the density of the thermochromic particles.

A METHOD OF MANUFACTURING A CERAMIC LIGHT TRANSMITTING BARRIER CELL, AND A BARRIER CELL PRODUCED BY THAT METHOD

A method of manufacturing a ceramic light transmitting barrier cell for enclosing a luminescent material and such a ceramic light transmitting barrier cell are provided. A part of a pre-formed barrier cell is formed by providing a material mix comprising a binder and inorganic particles in a first mold. On the part is provided a sacrificial layer for defining a cavity. A remainder part of the pre-formed barrier cell is formed by providing the material mix in a second mold which already comprises the part with the sacrificial layer. The sacrificial layer is at least partially removed to obtain the cavity. Optionally, the pre-formed barrier cell is heated (and/or sintered) to obtain the ceramic light transmitting barrier cell. The method of manufacturing is suitable for producing at large scale relatively cheap and accurately formed ceramic light transmitting barrier cells. 1. A method of manufacturing a ceramic light transmitting barrier cell for enclosing a luminescent material in a cavity of the ceramic light transmitting barrier cell , the luminescent material being configured to absorb a portion of light impinging on the luminescent material according to an absorption color distribution and to convert a part of the absorbed light into light having an emission color distribution , the method comprises the stages of:forming a part of a pre-formed barrier cell by providing a material mix into a first mold, the material mix comprising a binder and inorganic particles for forming a light transmitting ceramic material,providing a sacrificial layer on the part for defining a cavity of the pre-formed barrier cell, the sacrificial layer comprising a sacrificial material for being sacrificed in the method of manufacturing the ceramic light transmitting barrier cell,forming a remainder part of the pre-formed barrier cell by providing the material mix into a second mold, the second mold comprising the part with the sacrificial layer,at least partially removing the ...

LOW MIGRATION ENERGY CURABLE INKS

The present invention provides energy curable ink and coating compositions that comprise polymerizable compounds, photoinitiators, and colorants. The polymerizable compounds comprise one or more polymerizable monomers and/or oligomers, wherein at least a portion is 3-methyl-1,5-pentanediol diacrylate. The inks and coatings of the invention exhibit excellent print properties after UV-LED, standard UV mercury vapor lamp, and electron beam cure. 2. The energy curable ink or coating composition of claim 1 , further comprising an optical brightening agent.3. The energy curable ink or coating composition of claim 2 , wherein the optical brightening agent is a fluorescent brightening agent.4. The energy curable ink or coating composition of claim 1 , wherein the polymerizable compound comprises at least one ethoxylated oligomer.5. The energy curable ink or coating composition of claim 1 , further comprising an oxygen inhibitor.6. The energy curable ink or coating composition of claim 5 , wherein the oxygen inhibitor is aminated ethoxylated trimethylolpropane triacrylate.7. The energy curable ink or coating composition of claim 1 , wherein at least one photoinitiator is selected from the group consisting of alkyl amino acetophenone claim 1 , polymeric thioxanthone claim 1 , phosphine oxide claim 1 , and combinations thereof.8. The energy curable ink or coating composition of claim 1 , wherein the ink or coating composition is a flexographic claim 1 , lithographic claim 1 , gravure claim 1 , digital claim 1 , inkjet claim 1 , offset claim 1 , screen claim 1 , or letterpress ink.9. A method of producing a printed article claim 1 , comprising the steps of:{'claim-ref': {'@idref': 'CLM-00001', 'claim 1'}, 'a) applying the energy curable ink or coating composition of on a substrate; and'}b) curing the energy curable ink or coating composition on the substrate.10. The method of claim 9 , wherein curing in step b) is accomplished using UV light.11. The method of claim 10 , wherein ...

ELECTROLUMINESCENT DEVICE AND METHOD OF MANUFACTURING THE SAME, DISPLAY PANEL AND DISPLAY APPARATUS

Some embodiments of the present disclosure provide an electroluminescent device and a method of manufacturing the same, a display panel and a display apparatus. The electroluminescent device includes a first electrode and a second electrode disposed oppositely. A composite functional layer is disposed between the first electrode and the second electrode, and the composite functional layer includes a thermally activated delayed fluorescence material and a luminescent material. The thermally activated delayed fluorescence material is configured to capture carriers that are not recombined in the luminescent material so as to generate excitons which are then transferred to the luminescent material. 1. An electroluminescent device , comprising:a first electrode and a second electrode disposed oppositely; and,composite functional layer(s) disposed between the first electrode and the second electrode, wherein each composite functional layer includes thermally activated delayed fluorescence material and luminescent material, the thermally activated delayed fluorescence material is configured to capture carriers that are not recombined in the luminescent material so as to generate excitons which are transferable to the luminescent material.2. The electroluminescent device according to claim 1 , whereinthe composite functional layer includes a carrier collection layer and a light-emitting layer; andthe carrier collection layer includes the thermally activated delayed fluorescence material, and the light-emitting layer includes the luminescent material.3. The electroluminescent device according to claim 2 , wherein claim 2 , the carrier collection layer is disposed on a surface of the light-emitting layer close to the second electrode.4. The electroluminescent device according to claim 3 , wherein claim 3 , the first electrode is a cathode and the second electrode is an anode.5. The electroluminescent device according to claim 4 , wherein claim 4 , the light-emitting layer is ...

PHOSPHOR-CONTAINING FILM AND BACKLIGHT UNIT

Provided are a phosphor-containing capable of suppressing deterioration of phosphors and can be manufactured with high efficiency and a backlight unit. Specifically, provided is a phosphor-containing film, including a first substrate film; and a phosphor-containing layer at which a plurality of regions containing phosphors, which, if exposed to oxygen, deteriorate by reacting with the oxygen, are discretely disposed on the first substrate film, and at which a resin layer having an impermeability to oxygen is disposed between the discretely disposed regions containing phosphors, in which a width S of the resin layer between the regions containing phosphors is 0.01≤S<0.5 mm, and wherein a ratio of a volume Vp of the regions containing phosphors, to a sum of the volume Vp and a volume Vb of the resin layer in the phosphor-containing layer, is 0.1≤Vp/(Vp+Vb)<0.9. 1. A phosphor-containing film , comprising:a first substrate film; anda phosphor-containing layer at which a plurality of regions containing phosphors, which, if exposed to oxygen, deteriorate by reacting with the oxygen, are discretely disposed on the first substrate film, and at which a resin layer having an impermeability to oxygen is disposed between the plurality of discretely disposed regions containing phosphors,wherein the plurality of regions containing phosphors comprise a plurality of first fluorescent regions containing phosphors and a plurality of second fluorescent regions dispersed at different positions in a film thickness direction from positions of the plurality of first fluorescent regions.2. The phosphor-containing film according to claim 1 , wherein the plurality of first fluorescent regions containing phosphors and the plurality of second fluorescent regions containing phosphors partially overlap each other when the phosphor-containing film is viewed in a plan view.3. The phosphor-containing film according to claim 2 , wherein the plurality of first fluorescent regions containing phosphors ...

Ink Compositions for Controlling Exposure in Three Dimensions within a Layer of Photopolymer, and Methods of Using

The UV opacity from 0 to 100% in one inkjet pass, and the visual color, of solvent-based inks is controlled by the amounts of pigments, dyes, UV blockers and UV brighteners in the inks. The depth-of-cure in photopolymers is controlled by these factors and the % laydown of the ink in one pass. 1. An ink composition , comprising: (a) at least one fluorescent substance;', '(b) at least one light-reflecting substance; and', '(c) at least one light-absorbing substance;, 'at least one ofmixed with an organic solvent; 'up to 100% opaque in at least one range of wavelength of UV light when printed on a substrate with a single pass of the printer cartridge and allowed to dry.', 'the mixture being'}2. The ink composition of claim 1 , in which: (a) at least one fluorescent substance;', '(b) at least one light-reflecting substance; and', '(b) at least one light absorbing substance.', '(c) at least one light-absorbing substance; is'}], 'said at least one of'}3. The ink composition of claim 2 , in which:said at least one light-absorbing substance comprises at least one UV absorber and at least one visible light absorber.4. The ink composition of claim 3 , comprising:one UV absorber in the amount of up to about 1% by weight; andvisible light absorbers comprising up to about 1% by weight of black pigment, up to about 1% by weight of yellow pigment, and up to about 1% by weight of cyan pigment.5. The ink composition of claim 1 , in which:said at least one fluorescent substance is present up to about 1% by weight; andsaid at least one light-absorbing substance comprises at least 1% by weight of black pigment, at least 1% by weight of yellow pigment, and at least 1% by weight of cyan pigment.6. A method of controlling photopolymer exposure claim 1 , comprising the steps of:{'claim-ref': {'@idref': 'CLM-00001', 'claim 1'}, '(a) loading at least one ink cartridge with an ink of ;'}(b) placing the at least one ink cartridge in a printer;(c) causing the printer to print an ink pattern ...

Adhesive material for use in residue confirmation, and method for confirmation of residue remaining on object to be cleaned after cleaning using the same

A residue remaining on an object to be cleaned after cleaning is easily detected and observed on the object. Adhesive materials 2 A and 2 B for use in residue confirmation, which are applied in advance to an object 1 to be cleaned for confirmation of a residue remaining on the object 1 after cleaning, are formed by coloring chips produced during cutting work. The adhesive materials 2 A and 2 B are preferably formed by coating and coloring the chips with paint, the paint emitting visible light in an excited state.

WAVELENGTH CONVERSION DEVICE, LIGHT SOURCE DEVICE, LIGHTING APPARATUS, AND PROJECTION IMAGE DISPLAY APPARATUS

A wavelength conversion device includes: a substrate; and a phosphor layer on the substrate. The phosphor layer includes: a base material; phosphor particles which emit fluorescent light when excited by excitation light; and light transmissive particles each having a grain size that is within ±30% of a grain size of each of the phosphor particles, and a refractive index that is within ±7% of a refractive index of the base material. 1. A wavelength conversion device , comprising:a substrate; anda phosphor layer on the substrate,wherein the phosphor layer includes;a base material;phosphor particles which emit fluorescent light when excited by excitation light; andlight transmissive particles each having a grain size that is within ±30% of a grain size of each of the phosphor particles, and a refractive index that is within ±7% of a refractive index of the base material.2. The wavelength conversion device according to claim 1 ,wherein the phosphor layer contains the phosphor particles and the light transmissive particles in a volume of at least 45% relative to the base material.3. The wavelength conversion device according to claim 1 ,wherein the phosphor layer contains the light transmissive particles in a volume of at least 20% relative to the phosphor particles.4. The wavelength conversion device according to claim 1 ,wherein the grain size of each of the phosphor particles and the grain size of each of the light transmissive particles are each at least 5 μm and at most 20 μm.5. A light source device claim 1 , comprising:{'claim-ref': {'@idref': 'CLM-00001', 'claim 1'}, 'the wavelength conversion device according to ; and'}an excitation light source which emits the excitation light,wherein the light source device emits white light including the excitation light and the fluorescent light emitted by the phosphor particles.6. A lighting apparatus claim 1 , comprising:{'claim-ref': {'@idref': 'CLM-00005', 'claim 5'}, 'the light source device according to ; and'}an ...

Radiation Absorbing Element for Increasing Color Gamut of Quantum Dot Based Display Devices

Embodiments of a display device are described. The display device includes a backlight unit having a light source, a quantum dot film, and a radiation absorbing element. The quantum dot film is optically coupled to the light source and is configured to process light received from the light source. The radiation absorbing element is optically coupled to the quantum dot film and is configured to tune a spectral emission width of the processed light received from the quantum dot film to achieve over 90% color gamut coverage of a standard RGB color space

METHOD FOR DEPOSITING PHOTOLUMINESCENT MATERIAL

A method of depositing a photoluminescent material into a surface of the polymeric material is disclosed. The method comprises dissolving the photoluminescent material in water to create a solution. The temperature of the solution is then controlled at a predetermined temperature. The surface is contacted by the solution at the predetermined temperature for a predetermined time, thereby infusing the surface with the photoluminescent material. Following the predetermined time, the solution is removed from the surface by rinsing the surface with water. 1. A method of depositing a photoluminescent material into a surface of a polymeric material comprising the steps of:dissolving the photoluminescent material in water to create a solution;controlling a temperature of the solution at a predetermined temperature;contacting the surface with the solution for a predetermined time to infuse the surface with the photoluminescent material; andrinsing the solution from the surface.2. The method according to claim 1 , wherein the polymeric material corresponds to a molded part.3. The method according to claim 1 , wherein contacting the surface with the solution comprises submerging the molded part in the solution.4. The method according to claim 1 , wherein the predetermined temperature is approximately between 25 degrees Celsius to 100 degrees Celsius.5. The method according to claim 1 , wherein the predetermined time is approximately less than one second to approximately 20 minutes.6. The method according to claim 1 , wherein the predetermined time is approximately 30 second to 3 minutes.7. The method according to claim 1 , wherein the predetermined time decreases in response to the predetermined temperature being increased.8. The method according to claim 1 , wherein the solution comprises a percentage of photoluminescent material of approximately 0.001% to 15% by weight.9. The method according to claim 1 , wherein the solution comprises a percentage of photoluminescent ...

Wavelength-converting device

A wavelength-converting device includes a substrate and a reflective layer. The reflective layer is disposed on the substrate, among which when an operating temperature of the reflective layer is higher than or equal to 130° C., the reflective layer is formed of a first metallic material, and when the operating temperature of the reflective layer is lower than 130° C., the reflective layer is formed of a second metallic material. The reflectivity of the second metallic material is higher than the reflectivity of the first metallic material at room temperature. By forming the reflective layer of the first metallic material and the second metallic material at different operating temperatures, respectively, the decay of the reflectivity is effectively avoided, the reflectivity is optimized, and the converting efficiency of the wavelength-converting device is enhanced.

Method of manufacturing light emitting device

There is provided a method of manufacturing a light emitting device which includes preparing a light emitting element emitting excitation light and a substrate on which the light emitting element is disposed. A fluoride phosphor is provided to absorb excitation light emitted from the light emitting element to emit visible light, and is represented by Chemical Formula (1). The fluoride phosphor is disposed on at least one of the light emitting element and the substrate, wherein Chemical Formula (1): A x MF y :Mn 4+ (wherein 2≦x≦3 and 4≦y≦7, A is at least one element selected from the group consisting of Li, Na, K, Rb, and Cs, and M is at least one element selected from the group consisting Si, Ti, Zr, Hf, Ge, and Sn).

Optical method and device for monitoring a measurement object

A method and device for monitoring a measurement object. A passive unit has a light source, which radiates radiated light modulated by at least one external measurement influence from the measurement object. An active unit has an optical detector, which receives the radiated and modulated light via an optical link. In addition, there is a transmitter unit emitting energy, such as optical energy, sound energy, electromagnetic energy etc. The emitted energy is coded by an energy signature and sent to the passive unit via an energy link. The passive unit receives the emitted energy by a receiver unit, which decodes the energy signature and moderates the radiated and modulated light in dependence of the energy signature. The received energy is also used to drive the light source. A processor unit may decode the signal for discriminating the signal from error sources.

ORGANOMETALLIC COMPOUND, ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE ORGANOMETALLIC COMPOUND, AND DIAGNOSIS COMPOSITION INCLUDING THE ORGANOMETALLIC COMPOUND

An organometallic compound represented by Formula 1: 2. The organometallic compound of claim 1 , wherein{'sub': '1', 'Xis O.'}3. The organometallic compound of claim 1 , wherein{'sub': '1', 'Tis a single bond.'}4. The organometallic compound of claim 1 , wherein{'sub': '2', 'Tis a single bond.'}5. The organometallic compound of claim 1 , wherein{'sub': 3', '7, 'Tis a group selected from *—O—*′, *—S—*′, and *—N(R)—*′.'}6. The organometallic compound of claim 1 , whereinb1 to b3 are 1.7. The organometallic compound of claim 1 , wherein{'sub': 5', '6', '11', '14', '21', '23', '31', '33', '41', '44, 'claim-text': [{'sub': 5', '1', '20', '1', '20, 'hydrogen, deuterium, —F, —C, —Br, —I, a hydroxyl group, a cyano group, a nitro group, an amino group, an amidino group, a hydrazine group, a hydrazone group, a carboxylic acid group or a salt thereof, a sulfonic acid group or a salt thereof, a phosphoric acid group or a salt thereof, —SF, a C-Calkyl group, and a C-Calkoxy group;'}, {'sub': 1', '20', '1', '20', '3', '2', '2', '3', '2', '2', '1', '10, 'a C-Calkyl group and a C-Calkoxy group, each substituted with at least one selected from deuterium, —F, —C, —Br, —I, —CD, —CDH, —CDH, —CF, —CFH, —CFH, a hydroxyl group, a cyano group, a nitro group, an amino group, an amidino group, a hydrazine group, a hydrazone group, a carboxylic acid group or a salt thereof, a sulfonic acid group or a salt thereof, a phosphoric acid group or a salt thereof, a C-Calkyl group, a cyclopentyl group, a cyclohexyl group, a cycloheptyl group, a cyclooctyl group, an adamantanyl group, a norbornanyl group, a norbornenyl group, a cyclopentenyl group, a cyclohexenyl group, a cycloheptenyl group, a phenyl group, a naphthyl group, a pyridinyl group, and a pyrimidinyl group;'}, 'a cyclopentyl group, a cyclohexyl group, a cycloheptyl group, a cyclooctyl group, an adamantanyl group, a norbornanyl group, a norbornenyl group, a cyclopentenyl group, a cyclohexenyl group, a cycloheptenyl group, a phenyl group, a ...

WAVELENGTH CONVERSION MEMBER, AND LIGHT EMITTING DEVICE USING SAME

Provided is a wavelength conversion member that is less decreased in luminescence intensity with time by irradiation with light of an LED or LD and a light emitting device using the wavelength conversion member. A wavelength conversion member is formed of an inorganic phosphor dispersed in a glass matrix, wherein the glass matrix contains, in % by mole, 30 to 85% SiO, 0 to 20% BO, 0 to 25% AlO, 0 to 3% LiO, 0 to 3% NaO, 0 to 3% KO, 0 to 3% LiO+NaO+KO, 0 to 35% MgO, 0 to 35% CaO, 0 to 35% SrO, 0 to 35% BaO, 0.1 to 45% MgO+CaO+SrO+BaO, and 0 to 4% ZnO, and the inorganic phosphor is at least one selected from the group consisting of an oxide phosphor, a nitride phosphor, an oxynitride phosphor, a chloride phosphor, an oxychloride phosphor, a halide phosphor, an aluminate phosphor, and a halophosphate phosphor. 1. A wavelength conversion member formed of an inorganic phosphor dispersed in a glass matrix , wherein{'sub': 2', '2', '3', '2', '3', '2', '2', '2', '2', '2', '2, 'the glass matrix contains, in % by mole, 30 to 85% SiO, 0 to 20% BO, 0 to 25% AlO, 0 to 3% LiO, 0 to 3% NaO, 0 to 3% KO, 0 to 3% LiO+NaO+KO, 0 to 35% MgO, 9.5 to 35% CaO, 0 to 35% SrO, 0 to 5% BaO, 9.5 to 45% MgO+CaO+SrO+BaO, and 0 to 4% ZnO, and'}the inorganic phosphor is at least one selected from the group consisting of an oxide phosphor, a nitride phosphor, an oxynitride phosphor, a chloride phosphor, an oxychloride phosphor, a halide phosphor, an aluminate phosphor, and a halophosphate phosphor.2. The wavelength conversion member according to claim 1 , wherein the glass matrix contains claim 1 , in % by mole claim 1 , 30 to 85% SiO claim 1 , 0 to 20% BO claim 1 , 0 to 25% AlO claim 1 , 0 to 3% LiO claim 1 , 0 to 3% NaO claim 1 , 0 to 3% KO claim 1 , 0 to 3% LiO+NaO+KO claim 1 , 0 to 35% MgO claim 1 , 9.5 to 35% CaO claim 1 , 0 to 35% SrO claim 1 , 0 to 5% BaO claim 1 , 9.5 to 45% MgO+CaO+SrO+BaO claim 1 , and 0 to below 1.8% ZnO.3. The wavelength conversion member according to claim 1 , ...

HYBRID MATERIAL FOR USE AS COATING MEANS IN OPTOELECTRONIC COMPONENTS

The invention relates to the use of a hybrid material comprising 1. A method of applying a transparent layer having a thickness of <500 μm in an optoelectronic component , wherein a) an organopolysilazane material and', 'b) at least one surface-modified nanoscale inorganic oxide is applied to a surface in the optoelectronic component,, 'I) a hybrid material comprising'}II) is dried, andIII) is optionally cured.2. The method as claimed in claim 1 , wherein the organopolysilazanes used comprise repeat units of formula (I){'br': None, '—[SiRR′—NH]\u2003\u2003(I)'}where{'sub': 3', '8', '3', '8', '2', '6, 'R and R′ are the same or different and are each H, methyl, ethyl, straight-chain or branched C-Calkyl, C-Ccycloalkyl, C-Calkenyl or aryl'}with the proviso that R and R′ may not both be H.3. The method as claimed in claim 2 , wherein in formula (I){'sub': 3', '8, 'R and R′ are the same or different and are each H, methyl, ethyl, straight-chain, branched or cyclic C-Calkyl, phenyl, vinyl or aryl.'}4. The method as claimed in claim 3 , wherein in formula (I)R and R′ are the same or different and are each H, methyl, ethyl, n-propyl, isopropyl, n-butyl, isobutyl, phenyl or vinyl.5. The method as claimed in claim 4 , wherein in formula (I) R and R′ are the same or different and are each H claim 4 , methyl or vinyl.6. The method as claimed in claim 1 , wherein organopolysilazanes used were crosslinked by the catalytic action of fluoride ions.7. The method as claimed in claim 1 , wherein component b) of the hybrid material consists of one or more types of inorganic oxidic nanoparticles having an average diameter in the range from 1 to 30 nm claim 1 , preferably from 3 to 20 nm.8. The method as claimed in claim 7 , wherein the nanoparticles are selected from AlO claim 7 , SiO claim 7 , ZrOand TiO claim 7 , preferably SiO claim 7 , TiOand ZrO claim 7 , more preferably TiOand ZrO.9. The method as claimed in claim 1 , wherein the nanoparticles are surface modified with ...

Fluorescence observation method and fluorescence observation device

This fluorescence observation method is a method of observing a living organism into which a fluorescent dye is injected. The method includes the steps of: irradiating the living organism with excitation light including a wavelength for exciting the fluorescent dye using a light irradiation means, acquiring a first fluorescence image of the living organism generated by the irradiation with the excitation light using an image acquisition means, specifying an observation object in the living organism on the basis of the first fluorescence image; acquiring a second fluorescence image of the observation object generated by the irradiation with the excitation light using the image acquisition means; and specifying a linear fluorescence pattern appearing in the second fluorescence image.

Wavelength converter, light-emitting device using same, and production method for wavelength converter

A wavelength converter is provided with a light-transmitting substrate and with a thin film that is formed on a surface of the light-transmitting substrate and that contains a phosphor. A sintered body that constitutes the light-transmitting substrate has an average particle size of 5-40 μm. The light-transmitting substrate contains at least 10-500 ppm by mass of MgO. The principal component of the phosphor is an α-sialon that is indicated by the general formula (Ca α ,Eu β ) (Si,Al) 12 (O,N) 16 (provided that 1.5<α+β<2.2, 0<β<0.2, and O/N≦0.04).

ILLUMINATING SHEATH AND SHEATH POSITION SENSING SYSTEM

A self-illuminating, flexible sheath includes a distal end, a proximal end, and a lumen extending from the proximal end to the distal end. The flexible sheath includes a self-luminating feature. The flexible sheath is configured to be received by a working channel of an endoscope. 1. A flexible sheath comprising:a distal end;a proximal end; anda lumen extending from the proximal end to the distal end,wherein the flexible sheath comprises a self-luminating feature,wherein the flexible sheath is configured to be received by a working channel of an endoscope.2. The flexible sheath of claim 1 , wherein the endoscope is a bronchoscope.3. The flexible sheath of claim 1 , wherein the self-luminating feature comprises a luminous pigment.4. The flexible sheath of claim 3 , wherein the luminous pigment is applied as a paint to at least a portion of the flexible sheath.5. The flexible sheath of claim 3 , wherein the luminous pigment is added during manufacturing of the flexible sheath.6. The flexible sheath of claim 1 , further comprising:a first chamber section;a second chamber section; anda breakable membrane located between the first and second chamber sections, at least a first solution located in the first chamber section; and', 'at least a second solution located in the second chamber section,', 'wherein when the first solution comes into contact with the second solution, a chemiluminescence activity occurs., 'wherein the self-luminating feature comprises7. A system comprising: a handle;', a proximal end coupled to the handle;', 'a distal end, the proximal end being connected to the handle;', 'a working channel; and', 'an exit port of the working channel at the distal end of the insertion tube; and, 'an insertion tube comprising, an ultrasound transducer located at the distal end of the insertion tube;', 'an imaging sensor configured to produce image data, the imaging sensor comprising a component located proximal of the ultrasound transducer and distal of the exit port ...

Core shell particle, method of producing core shell particle, and film

An object of the present invention is to provide a core shell particle having high luminous efficacy and excellent durability; a method of producing the same; and a film obtained by using the core shell particle. The core shell particle of the present invention includes: a core which contains a Group III element and a Group V element; a first shell which covers at least a part of a surface of the core; and a second shell which covers at least a part of the first shell, in which at least a part of a surface of the core shell particle contains a metal-containing organic compound containing a metal element and a hydrocarbon group.

FLUORESCENCE OBSERVATION METHOD AND FLUORESCENCE OBSERVATION DEVICE

This fluorescence observation method is a method of observing a living organism into which a fluorescent dye is injected. The method includes the steps of: irradiating the living organism with excitation light including a wavelength for exciting the fluorescent dye using a light irradiation means, acquiring a first fluorescence image of the living organism generated by the irradiation with the excitation light using an image acquisition means, specifying an observation object in the living organism on the basis of the first fluorescence image; acquiring a second fluorescence image of the observation object generated by the irradiation with the excitation light using the image acquisition means; and specifying a linear fluorescence pattern appearing in the second fluorescence image. 1. A fluorescence observation method of observing a living organism into which a fluorescent dye is injected , the fluorescence observation method comprising the steps of:irradiating the living organism with excitation light including a wavelength for exciting the fluorescent dye using a light source;acquiring a first fluorescence image of the living organism generated by the irradiation with the excitation light using an image sensor;specifying an observation object in the living organism on the basis of the first fluorescence image;acquiring a second fluorescence image of the observation object generated by the irradiation with the excitation light using the image sensor; andspecifying a linear fluorescence pattern appearing in the second fluorescence image.2. The fluorescence observation method according to claim 1 , wherein the second fluorescence image is an image acquired when one minute or more has elapsed from the injection of the fluorescent dye into the living organism.3. The fluorescence observation method according to claim 1 , wherein fluorescent light from the observation object and a part of background light are input to the image sensor using a light filter.4. The ...

Light conversion device with enhanced inorganic binder

A light conversion device comprising a layer formed from an inorganic binder, the inorganic binder comprising: from about 25 to about 80 wt % of a filler; from about 20 to about 75 wt % of an inorganic adhesive; and from about 0.5 to about 5 wt % of a dispersant. The inorganic binders are capable of withstanding high temperatures, have a high light transmittance, have a high tensile-shear strength, can be applied by a flexible coating process, and have a low curing temperature. Such inorganic binders could advantageously be employed in a variety of applications, such light tunnels (300), projection display systems, and optical light conversion devices, such as phosphor wheels (100), used in such systems.

Light emitting device and plant cultivation method

A light emitting device includes a light emitting element having an emission peak wavelength in a range of 380 nm or more and 490 nm or less, and a red fluorescent material which is excited by the light from the light emitting element to emit light having at least one light emission peak wavelength in a range of 580 nm or more and 680 nm or less, wherein a ratio of the photon flux R of red light in a range of 620 nm or more and 700 nm or less to the photon flux B of blue light in a range of 400 nm or more and 490 nm or less, R/B, is in a range of more than 20 and 200 or less.

Group iii-v quantum dot and manufacturing method thereof

Embodiments disclosed herein relate to group III-V QDs and manufacturing methods thereof. More specifically, the embodiments disclosed herein relate to group III-V QDs that have at least one shell of a group II-VI compound surrounding the group III-V QD core. Thus, the QDs disclosed herein are core/shell QDs and in some embodiments may be a core/shell/shell QD. For example, the group III-V QD core material may be surrounded by a shell of a group II-VI compound, which itself may be surrounded by a shell of a group II-VI compound.

FLUORESCENCE OBSERVATION METHOD AND FLUORESCENCE OBSERVATION DEVICE

This fluorescence observation method is a method of observing a living organism into which a fluorescent dye is injected. The method includes the steps of: irradiating the living organism with excitation light including a wavelength for exciting the fluorescent dye using a light irradiation means, acquiring a first fluorescence image of the living organism generated by the irradiation with the excitation light using an image acquisition means, specifying an observation object in the living organism on the basis of the first fluorescence image; acquiring a second fluorescence image of the observation object generated by the irradiation with the excitation light using the image acquisition means; and specifying a linear fluorescence pattern appearing in the second fluorescence image. 18-. (canceled)9. A method for massaging a living organism , the method comprising:injecting a fluorescent dye into the living organism;irradiating the living organism with excitation light including a wavelength for exciting the fluorescent dye using a light source;capturing a first fluorescent image generated from the fluorescent dye introduced into a lymphatic vessel by the irradiation with the excitation light using an image sensor, before the fluorescent dye is circulated in a lymphatic drainage path;capturing a second fluorescent image generated from the fluorescent dye introduced into the lymphatic vessel by the irradiation with the excitation light using the image sensor, after the fluorescent dye is circulated in the lymphatic drainage path;displaying the first and second fluorescent images on a display to specify the lymphatic drainage path; andmassaging the living organism to the lymphatic drainage path.10. The method according to claim 9 ,wherein the displaying separately displays the first and second fluorescent images on the display.11. The method according to claim 9 ,wherein the displaying displays a movie including the first and second fluorescent images.12. The method ...

Wavelength converting member, light emitting device, light emitting element, light source unit, display device, and light guide member using wavelength converting member; and method of producing wavelength converting member

To provide a wavelength converting member that allows for improved yield, in which air bubbles can be prevented from being left in a resin containing a wavelength converting material; a light emitting device, a light emitting element, a light source unit, a display device, and a light guide member using the wavelength converting member; and a method of producing the wavelength converting member. A wavelength converting member has a receptacle provided with a receiving space; and a molding containing a wavelength converting material, placed in the receiving space. This allows air bubbles from being left in the wavelength converting material and improves the yield.

Quantum dot protective film, quantum dot film using same, and backlight unit

A first quantum dot protective film comprises a first barrier film including a silica deposition layer, and a first diffusion layer. An O/Si ratio of the silica deposition layer is 1.7 or more and 2.0 or less on an atomic ratio basis, and a refractive index of the silica deposition layer is 1.5 or more and 1.7 or less; and a reflectance of the first quantum dot protective film is 10% or more and 20% or less and a transmittance the first quantum dot protective film is 80% or more and 95% or less, at all wavelengths of 450 nm, 540 am, and 620 nm.

Fishing Gear

A pop gear or gang troll includes a wire leader and a plurality of spinner blades. The spinner blades may include a polycarbonate body or a body of some other material, a fragmented reflective material disposed on the polycarbonate body so as to reflect incident light in varying directions depending on the relative location of the incident light, and a luminescent material. The spinner blades may have a shape such as generally fish shaped, ovoid, round, or spoon shaped. A lure includes a polycarbonate body (or a body formed from some other material), a fragmented reflective material disposed on the polycarbonate body so as to reflect incident light in varying directions depending on the relative location of the incident light, a luminescent material, and a hook attached to the body. The body of the lure may have a shape designed to lure fish and/or to cause a desired motion to the lure (e.g., vibration). 1. A pop gear or gang troll comprising:a wire leader; and a polycarbonate body;', 'a fragmented reflective material disposed on the polycarbonate body so as to reflect incident light in varying directions depending on the relative location of the incident light; and', 'a luminescent material., 'a plurality of spinner blades comprising2. The pop gear or gang troll as recited in claim 1 , wherein the spinner blades comprise a shape selected from the group consisting of:generally fish shaped;ovoid;round; andspoon shaped.3. The pop gear or gang troll as recited in claim 1 , wherein the spinner blades comprise a first layer applied to the polycarbonate body comprising the luminescent material claim 1 , a solvent adhesive claim 1 , and glitter.4. The pop gear or gang troll as recited in claim 3 , wherein the spinner blades comprise a second layer applied to the first layer claim 3 , the second layer comprising a solvent cement and additional glitter.5. The pop gear or gang troll as recited in claim 1 , wherein the spinner blades comprise a first layer applied to the ...

LIGHT EMITTING SHELL IN SHELL MICROCAPSULES

A multi-compartment microcapsule emits photons when subjected to a stimulus. In some embodiments, the multi-compartment microcapsules have first and second compartments separated by an isolating structure adapted to rupture in response to the stimulus, wherein the first and second compartments contain reactants that come in contact and react to produce photons when the isolating structure ruptures. 1. A multi-compartment microcapsule comprising:a first compartment;a second compartment; andan isolating structure separating first and second compartments from each other and adapted to rupture in response to a stimulus, and wherein the first and second compartments contain reactants that come in contact and react to produce photons when the isolating structure ruptures.2. The multi-compartment microcapsule of claim 1 , wherein the first compartment contains chemiluminescent reactants and the second compartment contains an oxidant.3. The multicompartment microcapsule of claim 2 , wherein the oxidant is hydrogen peroxide.4. The multi-compartment microcapsule of claim 1 , wherein the multicompartment microcapsule is a shell-in-shell microcapsule comprising an inner shell contained within an outer shell claim 1 , wherein the inner shell encapsulates the first compartment claim 1 , wherein the outer shell encapsulates the second compartment claim 1 , and wherein the inner shell defines the isolating structure.5. The multi-compartment microcapsule of claim 4 , wherein the inner shell and the outer shell are configured so that a stimulus ruptures the inner shell while the outer shell remains intact.6. The multi-compartment microcapsule of claim 5 , wherein a given level of compressive force ruptures the inner shell while the outer shell remains intact.7. The multi-compartment microcapsule of claim 5 , wherein a given level of heat ruptures the inner shell while the outer shell remains intact.8. The multi-compartment microcapsule of claim 4 , further comprising magnetic ...

Light-emitting film, production method thereof, and a light emitting device including the same

A light emitting film including a plurality of quantum dots and an electronic device including the same. The plurality of quantum dots constitute at least a portion of a surface of the light emitting film, the plurality of quantum dots do not include cadmium, and the at least a portion of a surface of the light emitting film includes a metal halide bound to at least one quantum dot of the plurality of quantum dots.

Semiconductor Nanoparticle-Based Light-Emitting Devices and Associated Materials and Methods

Embodiments of the present invention relate to a formulation for use in the fabrication of a light-emitting device, the formulation including a population of semiconductor nanoparticles incorporated into a plurality of discrete microbeads comprising an optically transparent medium, the nanoparticle-containing medium being embedded in a host light-emitting diode encapsulation medium. A method of preparing such a formulation is described. There is further provided a light-emitting device including a primary light source in optical communication with such a formulation and a method of fabricating the same.

OIL SOLUBLE TAGGANTS

A process for detecting oil or lubricant contamination in the production of an article by adding a Stokes-shifting taggant to an oil or lubricant of a machine utilized to produce the article or a component thereof, irradiating the articles produced with a first wavelength of radiation, and monitoring the articles for emission of radiation at a second wavelength. The taggant can be in the form of a composition containing a Stokes-shifting taggant, which absorbs radiation at a first wavelength and emits radiation at a second wavelength, different from said first wavelength, dissolved or dispersed in an oil or lubricant. 123.-. (canceled)24. A compound comprising a tetrabutylammonium chloride complex of Indocyanine Green.26. The compound of claim 25 , wherein said compound absorbs radiation at a first wavelength and emits radiation at a second wavelength claim 25 , different from said first wavelength.27. The compound of claim 26 , wherein said first wavelength is about 760 to about 810 nanometers and said second wavelength is about 810 nanometers to about 960 nanometers. This patent application is a continuation of co-pending application Ser. No. 13/338,971, filed on Dec. 28, 2011, which claims priority to U.S. Provisional Application Ser. No. 61/490,403, filed on May 26, 2011, the contents of each are hereby incorporated by reference in their entirety.Disclosed herein is a light wavelength converting material for taggant applications and quantitative diagnostics.In the processing and packaging of various consumer products, oils, greases and lubricants may come into contact with the product.Typically, lubricants can come into contact with consumer products due to leakage of lubricants through gaskets or seals, from sliding mechanisms, from drum systems, from gear boxes, from pumps, from sealed rolling bearing units, from chains and belts, and the like. For example, lubricants are used in a variety of machines commonly used in the preparation and packaging of produce ...

Light-emitting element and light-emitting device using the composite compound, and manufacturing method of the light-emitting element

본 발명은 도전성이 우수한 복합재료, 및 복합재료를 사용한 발광소자, 및 발광장치를 제공한다. 또한 본 발명은 대량생산에 적합한 발광소자의 제조방법을 제공한다. 본 발명의 발광소자는, 한 쌍의 전극 사이에, 발광 물질을 포함한 층을 가진다. 발광 물질을 포함한 층은, 유기화합물과, 유기화합물에 대하여 전자공여성을 나타내는 무기화합물을 포함한 복합재료를 가진다. 본 발명의 발광소자는, 유기화합물과 무기화합물이 복합되어 이루어진 복합재료를 포함하기 때문에, 캐리어 주입성, 캐리어 수송성, 도전성이 뛰어나, 구동전압을 저감할 수 있다. The present invention provides a composite material having excellent conductivity, a light emitting device using the composite material, and a light emitting device. The present invention also provides a method of manufacturing a light emitting device suitable for mass production. The light emitting device of the present invention has a layer containing a light emitting material between a pair of electrodes. The layer containing the luminescent material has a composite material containing an organic compound and an inorganic compound exhibiting electron donating to the organic compound. Since the light emitting device of the present invention includes a composite material composed of an organic compound and an inorganic compound, it is excellent in carrier injection property, carrier transport property and conductivity, and can reduce driving voltage. 발광소자, 전극, 복합재료, 유기화합물, 무기화합물, 캐리어 Light emitting element, electrode, composite material, organic compound, inorganic compound, carrier

Improved color-converting photoluminescent film

An improved color-converting photoluminescent film that provides visible light emission in the red to green portion of the visible spectrum when excited by blue light. The color-converted photoluminescent film of the invention is patternable and has improved luminous efficiency and stability and is suitable for use in electroluminescent displays. The film comprises a mixture of a clear UV curable resin and photo-initiator which does not absorb blue light; and fluorescent pigment particles, wherein a molecular additive is optionally provided in to either or both of the pigment particles and curable resin. The mixture is screen printed onto a substrate to form a film and UV cured.

复合材料、使用所述复合化合物的发光元件和发光器件以及所述发光元件的制造方法

本发明提供了一种具有高传导性的复合材料、使用所述复合材料的发光元件和发光器件。此外，本发明提供了一种适于大量生产的发光元件的制造方法。本发明的发光元件包含在一对电极之间包含发光物质的层。包含发光物质的层含有包含有机化合物和对所述有机化合物显示给电子性能的无机化合物的复合材料。由于本发明的发光元件包含通过有机化合物和无机化合物组合制成的复合材料，因此其载流子注入性能、载流子传输性能和传导性优异，因此，可降低驱动电压。

Composite Material Including organic Compound And Inorganic Compound Light-Emitting Element And Light-Emitting Device Using The Composite Compound, And Manufacturing Method Of The Light-Emitting Element

The present invention provides a composite material having high conductivity, a light-emitting element and a light-emitting device using the composite material. Further, the present invention provides a manufacturing method of a light-emitting element which is suitable for mass production. A light-emitting element of the present invention includes a layer including a luminescent substance between a pair of electrodes. The layer including a luminescent substance has a composite material which includes an organic compound, and an inorganic compound showing an electron donating property to the organic compound. Since the light-emitting element of the present invention includes a composite material made by combining an organic compound and an inorganic compound, the carrier injecting property, carrier transporting property, and conductivity thereof are excellent, and thus, the driving voltage can be reduced.

Light emitting device and material

The present invention provides a composite material having high conductivity, a light-emitting element and a light-emitting device using the composite material. Further, the present invention provides a manufacturing method of a light-emitting element which is suitable for mass production. A light-emitting element of the present invention includes a layer including a luminescent substance between a pair of electrodes. The layer including a luminescent substance has a composite material which includes an organic compound, and an inorganic compound showing an electron donating property to the organic compound. Since the light-emitting element of the present invention includes a composite material made by combining an organic compound and an inorganic compound, the carrier injecting property, carrier transporting property, and conductivity thereof are excellent, and thus, the driving voltage can be reduced.

Composite material including organic compound and inorganic compound, light-emitting element and light-emitting device using the composite compound, and manufacturing method of the light-emitting element

The present invention provides a composite material having high conductivity, a light-emitting element and a light-emitting device using the composite material. Further, the present invention provides a manufacturing method of a light-emitting element which is suitable for mass production. A light-emitting element of the present invention includes a layer including a luminescent substance between a pair of electrodes. The layer including a luminescent substance has a composite material which includes an organic compound, and an inorganic compound showing an electron donating property to the organic compound. Since the light-emitting element of the present invention includes a composite material made by combining an organic compound and an inorganic compound, the carrier injecting property, carrier transporting property, and conductivity thereof are excellent, and thus, the driving voltage can be reduced.

包含有机化合物和无机化合物的复合材料、使用所述复合化合物的发光元件和发光器件以及所述发光元件的制造方法

本发明提供了一种具有高传导性的复合材料、使用所述复合材料的发光元件和发光器件。此外，本发明提供了一种适于大量生产的发光元件的制造方法。本发明的发光元件包含在一对电极之间包含发光物质的层。包含发光物质的层含有包含有机化合物和对所述有机化合物显示给电子性能的无机化合物的复合材料。由于本发明的发光元件包含通过有机化合物和无机化合物组合制成的复合材料，因此其载流子注入性能、载流子传输性能和传导性优异，因此，可降低驱动电压。

包含有机化合物和无机化合物的复合材料、使用所述复合化合物的发光元件和发光器件以及所述发光元件的制造方法

本发明提供了一种具有高传导性的复合材料、使用所述复合材料的发光元件和发光器件。此外，本发明提供了一种适于大量生产的发光元件的制造方法。本发明的发光元件包含在一对电极之间包含发光物质的层。包含发光物质的层含有包含有机化合物和对所述有机化合物显示给电子性能的无机化合物的复合材料。由于本发明的发光元件包含通过有机化合物和无机化合物组合制成的复合材料，因此其载流子注入性能、载流子传输性能和传导性优异，因此，可降低驱动电压。

复合材料、使用所述复合化合物的发光元件和发光器件以及所述发光元件的制造方法

本发明提供了一种具有高传导性的复合材料、使用所述复合材料的发光元件和发光器件。此外，本发明提供了一种适于大量生产的发光元件的制造方法。本发明的发光元件包含在一对电极之间包含发光物质的层。包含发光物质的层含有包含有机化合物和对所述有机化合物显示给电子性能的无机化合物的复合材料。由于本发明的发光元件包含通过有机化合物和无机化合物组合制成的复合材料，因此其载流子注入性能、载流子传输性能和传导性优异，因此，可降低驱动电压。

복사냉각에서 색상 구현이 가능한 냉각재 및 이를 이용한 색상 구현 방법

본 발명의 일 실시예는 적외선을 방출하여 복사냉각을 일으키는 제1물질; 및 가시광선 영역의 빛을 흡수하여 파장을 변환하여 방출하는 제2물질을 포함하는 복사냉각에서 색상 구현이 가능한 냉각재를 제공하며, 이를 자동차 외장재, 건물 외벽, 도로의 포장, 수송용 컨테이너 등에 적용함으로써 냉각에 필요한 에너지 소비를 감소시키고, 도심의 열섬 현상을 줄이며, 물류비용을 감소시키는 등의 효과를 제공할 수 있다.

Offset fluoroscent ink base and the manufacturing method thereof

The present invention relates to an offset fluorescent ink base with outstanding compatibility, transition property, and water resistance, and to a method for preparing the same. The properties of the offset fluorescent ink base can be improved by improving properties of amino resin in which a dye is dyed, using a medium resin comprising oil modified alkyd resins, specific modified alkyd resins, petroleum resins, and petroleum-based solvents.

Apparatus for manufacturing quantum dot

PURPOSE: A quantum dot manufacturing device is provided to produce quality quantum dot nano particles in bulk because the device is easily used in the quantum dot synthesis and is easy to control. CONSTITUTION: A quantum dot manufacturing device (10) includes a reaction bath (100), a heating device (200), a stirring device (400), a precursor supply part (300), and an operating panel. The reaction bath has a reaction space charging solvent inside the bath and is made from transparent materials to observe the inside. The heating device is placed outside of the reaction bath to heat the reaction bath. The precursor supply part contains an accommodating chamber (310) full of precursors, an injection nozzle (320) supplying the precursors of the accommodating chamber to the reaction bath, and a valve opening and shutting a connection area of the accommodating chamber and the injection nozzle. The stirring device has an impeller (410) rotating inside the reaction bath to stir the injected precursors and the solvent inside the reaction bath. The operating panel controls the overall operation of the heating device, the valve, and the stirring device.

An advertising sticker

본 고안은 전원이 끊기는 것과 같은 비상시에 전동차등과 같은 출입문의 위치를 쉽게 알 수 있고 평상시에는 공익 및 상업적인 광고효과 기능을 겸할 수 있는 전동차 출입문 비상표시 겸용 광고용 스티커를 전동차 출입문의 내측 상단에 용이하게 부착할 수 있고 야광시트의 휘도를 증대시킨 광고용 스티커에 관한 것으로, 야광물질이 도포된 발광부와 광고 문안 및 사진을 기록하기 위한 광고표시부를 구비하는 광고용 스티커에 있어서, 상기 발광부와 광고표시부의 배면에 일체로 형성되고, 배면에 접착제가 도포되는 소프트패드; 상기 소프트패드 배면의 일측을 덮고 있는 제 1이형지; 상기 소프트패드 배면의 타측을 덮고 있으며, 일단부에 견인부가 일체로 형성된 제 2이형지; 및 일정방향을 지시하기 위해 상기 발광부의 중심에 형성된 방향표시부를 포함하는 것을 특징으로 한다. This design makes it easy to know the location of doors such as electric cars in emergencies such as when power is cut off. The present invention relates to an advertisement sticker which can be attached and increases the brightness of the luminous sheet, wherein the advertisement sticker includes a light emitting unit coated with a luminous material and an advertisement display unit for recording an ad text and a photograph. Soft pad is formed integrally on the back, the adhesive is applied to the back; A first release paper covering one side of the back of the soft pad; A second release paper covering the other side of the back of the soft pad and having a tow portion integrally formed at one end thereof; And a direction display part formed at the center of the light emitting part to indicate a predetermined direction.

복합체, 그 제조방법 및 상기 복합체를 포함하는 소자

반도체 나노 결정 입자 및 상기 반도체 결정 나노 입자의 표면에 위치하는 금속 착물 화합물을 포함하는 복합체가 제공된다. 나노 입자 및 상기 나노 입자의 표면에 위치하는 금속 착물 화합물을 포함하고 상기 금속 착물 화합물의 말단은 가교성 작용기를 포함하는 복합체가 제공된다. 상기 복합체는 고분자를 더 포함할 수 있다.

Light-emitting element light-emitting device and electronic appliance

본 발명의 목적은 고 발광 효율을 가진 발광 소자, 및 저 전압 구동의 발광 소자를 제공하는 것이다. 본 발명의 또 다른 목적은 상기 발광 소자를 사용함으로써 저 전력 소비의 발광 장치를 제공하는 것이다. 본 발명의 또 다른 목적은 표시부에 상기 발광 장치를 사용함으로써 저 전력 소비의 전자 기기를 제공하는 것이다. 발광 소자는, 한 쌍의 전극들 간에, 제 1 유기 화합물 및 무기 화합물의 복합 재료를 포함하는 층, 및 상기 복합 재료를 포함하는 층과 접촉하는 제 2 유기 화합물을 포함하는 층을 포함하며, 제 2 유기 화합물은 제 2 유기 화합물이 무기 화합물과 복합된다면 450 내지 800nm의 파장 영역에서 흡수 스펙트럼의 피크를 갖지 않는다. An object of the present invention is to provide a light emitting device having a high luminous efficiency and a light emitting device of low voltage driving. Another object of the present invention is to provide a light emitting device of low power consumption by using the light emitting element. Another object of the present invention is to provide an electronic device with low power consumption by using the light emitting device on the display portion. The light emitting device comprises a layer comprising a composite material of a first organic compound and an inorganic compound, and a layer comprising a second organic compound in contact with the layer comprising the composite material, between a pair of electrodes; The second organic compound does not have an absorption spectrum peak in the wavelength region of 450 to 800 nm if the second organic compound is complexed with an inorganic compound. 발광 소자, 유기 화합물, 무기 화합물, 복합 재료, 흡수 스펙트럼, 전류 여기형 Light emitting element, Organic compound, Inorganic compound, Composite material, Absorption spectrum, Current excitation type

The Total Fire Safety Tool Box

본 고안은 안전한 방법으로 여러종류의 소방기구를 보관하여서 사용자가 신속하게 사용할 수 있으며, 외관이 미려하여 장식적 미감을 유도하면서 용이한 식별로 안전사고를 미연에 방지할 수 있는 소방안전기구함{자기소화성(自己消火性)}에 관한 것이다. 본 소방안전기구함은, 투명체인 덮개(10)가 일측에 회동이 자유롭게 설치된 본체(20)와, 상기 본체(20)의 내부에 소정의 깊이를 갖는 수용부(22) 일측에 간이소화기(30)의 외주면에 결합되어 고정못(24)으로 고정하는 고정밴드(26)와, 상기 고정밴드(26)와 별도로 비상조명등(40)의 건전지(44)(44a) 사이에 삽입되는 지지구(32)와 이 지지구(32) 상하 소정영역에 설치된 지지대(34)(34a)와, 상기 상부 지지대(34)의 상부에 좌,우 및 하단으로 배치되고 디귿형태로 형성되어 방연마스크(50)를 수용하는 걸림유도구(52)(52a)(52b)를 포함하여 이루어진다. 이에 따라, 소방안전기구 등을 안전하게 수납하여 보관시 안전하며, 편리하며 신속한 사용으로 능동적인 진화를 이루게 하고, 야간이나 어두운 곳에서도 용이한 식별로 신속한 사용을 이루게 하며, 간단한 구조로 보관과 휴대가 용이한 효과가 있다.

Both sided luminous board

PURPOSE: A double-sided luminous board is provided to reduce components and a manufacturing cost, to simplify a structure, and to increase brightness of an illumination sheet in which an advertisement image is displayed. CONSTITUTION: A double-sided luminous board comprises: a plate-shaped light guide plate with a depression of a predetermined depth formed along the edge; an LED illumination part in which many LED elements are electrically connected on a flexible substrate; a plate-shaped laminate plate laminated on the light guide processed surface; and illumination sheets(120) which are adhered to the opposite surface of the light guide processed surface and the surface of the laminate plate facing the light guide processed surface.

Organometallic complexes, polymers containing the same, mixtures, compositions and organic electronic devices

公开了一种新型有机金属配合物，及其在有机电子器件，特别是在有机磷光发光二极管中的应用。还涉及包含有的金属有机配合物的有机电子器件，特别是有机发光二极管，及其在显示及照明技术中的应用。通过器件结构优化，改变金属配合物在基质中的浓度，提高器件性能，实现高效高亮度高稳定的OLED器件，为全彩显示和照明应用提供了较好的材料选项。

Wavelength conversion particle, wavelength conversion member using same, and light emitting device

파장 변환 부재(70)의 파장 변환 입자(7)는, 형광체 입자(71)의 표면측에 미세 요철 구조를 갖는 모스-아이형 구조부(74)를 구비하고, 당해 미세 요철 구조가 형광체 입자(71) 자체에 형성되어 있다. 파장 변환 부재(70)는, 파장 변환 입자(7)가 당해 파장 변환 입자(7)의 형광체 입자(71)보다도 굴절률이 작은 투광성 매체(73)에 분산되어 이루어지고, 형광체 입자(71)의 표면측에, 모스-아이형 구조부(74)와 모스-아이형 구조부(74)의 가늘어지는 형상의 미세 돌기(75) 사이에 들어간 투광성 매체(73)로 구성되는 반사 방지부(76)를 구비하고 있다. 발광 장치(1)는, LED칩(10)으로부터 방사되는 광의 일부를 당해 광보다도 장파장의 광으로 변환하여 방사하는 색변환 부재로서 파장 변환 부재(70)를 이용하고 있다. The wavelength conversion particle 7 of the wavelength conversion member 70 is equipped with the Mohs-eye structure part 74 which has a fine concavo-convex structure on the surface side of the fluorescent substance particle 71, and the said fine concavo-convex structure is fluorescent particle 71 ) Is formed in itself. The wavelength conversion member 70 is formed by dispersing the wavelength conversion particles 7 in a light transmissive medium 73 having a smaller refractive index than the phosphor particles 71 of the wavelength conversion particles 7, and the surface of the phosphor particles 71. On the side, the anti-reflective part 76 which consists of a translucent medium 73 which entered between the MOS-eye type | mold structural part 74 and the tapered fine protrusion 75 of the MOS-eye type | mold structure part 74 is provided, have. The light emitting device 1 uses the wavelength conversion member 70 as a color conversion member that converts a part of light emitted from the LED chip 10 into light having a longer wavelength than the light.

Wavelength conversion member, backlight unit, liquid crystal display, and quantum dot-containing polymerizable composition

Wavelength conversion particle, wavelength conversion member using same, and light emitting device

本发明提供一种波长转换部件(70)的波长转换粒子(7)，其在荧光体粒子(71)的表面侧具备具有微细凹凸结构的蛾眼状结构部(74)，该微细凹凸结构形成于荧光体粒子(71)自身上。波长转换部件(70)是通过将波长转换粒子(7)分散在折射率比该波长转换粒子(7)的荧光体粒子(71)小的透光性介质(73)中而形成的，在荧光体粒子(71)的表面侧具备防反射部(76)，所述防反射部(76)由蛾眼状结构部(74)和进入蛾眼状结构部(74)的尖细状的微细突起(75)间的透光性介质(73)构成。发光装置(1)采用波长转换部件(70)作为将从LED芯片(10)放射出的光的一部分转换成波长比该光长的光并放射的颜色转换部件。

a luminous rubber chip block

본 고안은 보도블록에 관한 것으로 고무칩을 이용하여 성형되어지면서도 야간에 발광수단을 구비토록 한 것이다. 현재 일반적인 보도불록은 콘크리트로 성형되어진 것을 사용하고 이러한 것들에 안내표시를 위한 발광수단을 구현하기 위하여는 내입홈을 형성토록 한 후 내입홈에 발광수단을 형성하고 있는 것이다. 그러나 이러한 발광수단이 단단한 재질의 콘크리트 블록과 결합될 경우에 그 결합력에 많은 문제점이 있고 특히 이러한 것들에는 투습이 원할하지 못하기 때문에 이러한 발광수단이 쉽게 분리되어진다는 단점이 있는 것이었다. 따라서 본 고안은 이러한 발광수단의 용이한 분리를 방지하고 또한 견고하고 장시간 부착력을 유지할 수 있는 것을 제공하기 위한 것이다. 보도블록,발광,고무칩

Wavelength conversion member and light emitting device using same

LED 나 LD 의 광을 조사한 경우에, 시간 경과적인 발광 강도의 저하가 적은 파장 변환 부재 및 그것을 사용하여 이루어지는 발광 디바이스를 제공한다. 유리 매트릭스 중에 무기 형광체가 분산되어 이루어지는 파장 변환 부재로서, 상기 유리 매트릭스가, 몰％ 로, SiO 2 30 ∼ 85 ％, B 2 O 3 0 ∼ 20 ％, Al 2 O 3 0 ∼ 25 ％, Li 2 O 0 ∼ 3 ％, Na 2 O 0 ∼ 3 ％, K 2 O 0 ∼ 3 ％, Li 2 O ＋ Na 2 O ＋ K 2 O 0 ∼ 3 ％, MgO 0 ∼ 35 ％, CaO 0 ∼ 35 ％, SrO 0 ∼ 35 ％, BaO 0 ∼ 35 ％, MgO ＋ CaO ＋ SrO ＋ BaO 0.1 ∼ 45 ％, 및 ZnO 0 ∼ 4 ％ 를 함유하고, 상기 무기 형광체가, 산화물 형광체, 질화물 형광체, 산질화물 형광체, 염화물 형광체, 산염화물 형광체, 할로겐화물 형광체, 알루민산염 형광체 및 할로인산 염화물 형광체로 이루어지는 군에서 선택되는 적어도 1 종인 것을 특징으로 하는 파장 변환 부재. Provided are a wavelength conversion member with little decrease in light emission intensity over time when irradiated with light from LED or LD, and a light emitting device using the same. A wavelength conversion member in which an inorganic phosphor is dispersed in a glass matrix, wherein the glass matrix contains, in mole %, SiO 2 30 to 85%, B 2 O 3 0 to 20%, Al 2 O 3 0 to 25%, Li 2 O 0 to 3%, Na 2 O 0 to 3%, K 2 O 0 to 3%, Li 2 O + Na 2 O + K 2 O 0 to 3%, MgO 0 to 35%, CaO 0 to 35%, 0 to 35% of SrO, 0 to 35% of BaO, 0.1 to 45% of MgO+CaO+SrO+BaO, and 0 to 4% of ZnO are contained, and the inorganic phosphor is an oxide phosphor, a nitride phosphor, an oxynitride phosphor, and a chloride. A wavelength conversion member comprising at least one member selected from the group consisting of a phosphor, an acid chloride phosphor, a halide phosphor, an aluminate phosphor, and a halophosphate phosphor.

High efficiency plastic light conversion components by incorporation of phosphor in a polymer by adding to monomers before polymerisation

The invention relates to a method for producing a polymer product having integrated luminescent material particles, the polymer product being produced from at least one monomer in liquid phase and at least one kind of powder of luminescent material particles. The method is characterized by adding the luminescent material to the liquid monomer before polymerisation. The invention further relates to a plastic component for light conversion made of the polymer produced according to said method; a Light-emitting device comprising said plastic component; and the use of a polymer produced according to said method.

Method of measuring temperature fields on surface of investigated object using luminescent temperature converters (ltc)

FIELD: measurement technology. SUBSTANCE: invention relates to a method of measuring temperature fields on the surface of an investigated object using luminescent temperature converters. Method includes application onto the surface a coating luminescent when illuminated by exciting radiation, luminescence intensity of which depends on temperature. Coating composition includes a nitrolacquer or a polyurethane lacquer uniformly mixed at normal conditions with two luminophores – a sensitive to temperature rhodamine and an insensitive to temperature luminophore. When illuminated with exciting luminescence radiation the said luminophores luminesce in different spectral regions. Desired temperature distribution onto the surface of the object is obtained by computer processing of two images simultaneously registered in spectral intervals of the used luminophores. Calculated ratio of intensities does not depend on brightness of the exciting luminescence source, thickness of the coating lacquer, geometric characteristics of the investigated object. EFFECT: invention provides higher reliability of the result of visual monitoring of temperature onto the object surface, as well as the possibility of simultaneous control of temperature in the continuous mode on the entire surface or on a specific area of the object surface selectively. 1 cl, 3 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 607 225 C2 (51) МПК G01K 11/20 (2006.01) C09D 5/26 (2006.01) C09D 5/22 (2006.01) C09K 11/00 (2006.01) C09D 101/18 (2006.01) C09D 175/04 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ФОРМУЛА (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ 2015115392, 23.04.2015 (24) Дата начала отсчета срока действия патента: 23.04.2015 Дата регистрации: Приоритет(ы): (22) Дата подачи заявки: 23.04.2015 (43) Дата публикации заявки: 20.11.2016 Бюл. № 32 2001004460 A, 12.01.2001. US 2013215929 A1, 22.08.2013. МОШАРОВ В.Н. и др. Измерение полей тепловых потоков в трубах ...

Material for organic electroluminescent device and organic electroluminescent device

　下記式（Ｉ）で表される有機エレクトロルミネッセンス素子用材料。 （式中、Ｘ１及びＸ２は、それぞれ特定の二価の基のいずれかであり、Ｙ１～Ｙ４は、それぞれ炭素原子又は窒素原子であり、Ｒ１～Ｒ４は、それぞれ水素、アルキル基、アリール基、複素環、ハロゲン原子、フルオロアルキル基又はシアノ基である。また、Ｒ１とＲ２、及びＲ３とＲ４はそれぞれ結合して環を形成してもよい。）

Conjugated polymer and its application in organic electronic device

本发明涉及一种共轭聚合物，包含有通式(I)所示的重复单元： 其中，p为重复单元数，所述p为大于或等于1的整数；A具有如通式(II)所示的结构，B具有如通式(II)或通式(III)所示的结构； 上述共轭聚合物，具有较高的三线态能级及高的电荷传输性能。

Vehicle backlighting system (embodiments) and vehicle external area lighting method

FIELD: lighting. SUBSTANCE: group of inventions relates to vehicle illumination systems. Illumination system for vehicle comprises first and second photoluminescent parts located on rear spoiler of vehicle, and at least one light source configured to emit radiation with first wavelength. First and second photoluminescent parts are configured to convert the first wavelength to at least a second wavelength greater than the first wavelength. First and second photoluminescent parts respectively illuminate different areas around the vehicle. EFFECT: improved local lighting. 19 cl, 7 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 702 375 C2 (51) МПК B60Q 1/24 (2006.01) B60Q 1/26 (2006.01) B60Q 1/30 (2006.01) F21S 41/16 (2018.01) F21S 43/13 (2018.01) F21S 43/145 (2018.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК B60Q 1/2607 (2019.05); B60Q 1/24 (2019.05); B60Q 1/2661 (2019.05); B60Q 1/30 (2019.05); F21S 41/16 (2019.05); F21S 43/13 (2019.05); F21S 43/145 (2019.05) (21)(22) Заявка: 2016103134, 01.02.2016 01.02.2016 (73) Патентообладатель(и): ФОРД ГЛОУБАЛ ТЕКНОЛОДЖИЗ, ЭлЭлСи (US) Дата регистрации: 08.10.2019 09.02.2015 US 14/617,177 (43) Дата публикации заявки: 03.08.2017 Бюл. № 22 (56) Список документов, цитированных в отчете о поиске: US 2002176245 A1, 28.11.2002. US 5709453 A, 20.01.1998. US 5119068 A, 02.06.1992. US 2008036582 A1, 14.02.2008. US 2009129107 A1, 21.05.2009. US 2009257241 A1, 15.10.2009. (54) СИСТЕМА ПОДСВЕТКИ ДЛЯ ТРАНСПОРТНОГО СРЕДСТВА (ВАРИАНТЫ) И СПОСОБ ПОДСВЕТКИ НАРУЖНОЙ ОБЛАСТИ ТРАНСПОРТНОГО СРЕДСТВА (57) Реферат: Группа изобретений относится к системам выполнены с возможностью преобразования освещения транспортного средства. Система первой длины волны в по меньшей мере вторую подсветки для транспортного средства содержит длину волны, большую, чем первая длина волны. первую и вторую фотолюминесцентные части, Первая и вторая фотолюминесцентные части расположенные на заднем спойлере соответственно ...

Phosphorescent heteroleptic phenylbenzimidazole dopants and new synthetic methodology

Novel heteroleptic iridium complexes are provided. These iridium complexes are useful compounds in OLED devices. The ligands for these novel complexes may be obtained using a new synthetic methodology that utilizes manganese dioxide.

Method of making organic electroluminescent materials

A method of making ligands for producing novel heteroleptic iridium complexes is provided. The method includes reacting the condensation product of an aryl 1,2-diamine and an aryl aldehyde with manganese dioxide in a solvent. The novel iridium complexes produced using the ligands are useful compounds in OLED devices.

Conjugated polymer and use thereof in organic electronic device

A conjugated polymer comprises repeating units as represented by formula (I), A-B p   (I) p is the number of the repeating units, and p is an integer more than or equal to 1; and A has a structure as represented by formula (II), and B has a structure as represented by formula (II) or formula (III). The described conjugated polymer has a higher triplet energy level and a higher charge transfer property.

Polymer

A polymer comprising an optionally substituted repeat unit of formula (I):wherein R 1 and R 2 in each occurrence are independently selected from H or a substituent; R 1 and R 2 may be linked to form a ring; and A is an optionally substituted linear, branched or cyclic alkyl group.

Metal complexes

본 발명은 금속 착물 및 이들 금속 착물을 포함하는 전자 소자, 특히 유기 전계발광 소자에 관한 것이다. The present invention relates to metal complexes and electronic devices, in particular organic electroluminescent devices, comprising these metal complexes.

Semiconductor nanocrystal composition, semiconductor nanocrystal polymer composites, and backlight unit used for liquid crystal display device

本发明提供半导体纳米晶体组合物、半导体纳米晶体-聚合物复合物及用于液晶显示器件的背光单元，特别是提供半导体纳米晶体组合物和由其制备的半导体纳米晶体-聚合物复合物，所述半导体纳米晶体组合物包括：半导体纳米晶体、有机添加剂、和能聚合物质，其中所述组合物在进行聚合之后具有大于或等于约40％的雾度。

Material for organic electroluminescence device and organic electroluminescence device

Material for organic electroluminescent device and organic electroluminescent device

A material for an organic electroluminescent device represented by the following formula (I): wherein X 1 and X 2 are independently one of Specific divalent groups; Y 1 to Y 4 are independently a carbon atom or a nitrogen atom; R 1 to R 4 are independently a hydrogen atom, an alkyl group, an aryl group, a heterocyclic group, a halogen atom, a fluoroalkyl group, or a cyano group; and R 1 and R 2 , and R 3 and R 4 may be bonded together to form a ring, respectively.

Nitrogenous polymers used as electroluminescent materials

The invention concerns nitrogenous polymers containing structural units of formula (I), wherein the symbols and indices have the following meanings: Ar?1, Ar2 and Ar3¿ are identical or different and designate mono and/or polynuclear aryl and/or heteroaryl groups, or carbon atoms, which are optionally linked via one or a plurality of bridges and/or condensed, it further being possible for these groups to be optionally substituted; X is a single bond, -O-, -S-, -SO-, -SO¿2?-, NR?3, -CR4R5¿-, -CO-, -CR?6=CR7, CR8R9-CR10R11 or SiR12R13; R1-R13¿ are identical or different and designate H, a hydrocarbon residue with 1 to 22 carbon atoms or Ar4, where Ar4 is the same as or different from Ar1 and has the same meanings as Ar1; and n is 1, 2 or 3.

Organic light-emitting devices and methods

Eine organische lichtemittierende Vorrichtung, welche eine lichtemittierende Schicht hat, umfassend ein lichtemittierendes Polymer, und eine elektronentransportierende Schicht auf der lichtemittierenden Schicht, umfassend ein elektronentransportierendes Material, worin die Glasübergangstemperaturen, gemessen in Grad Celsius, des elektronentransportierenden Materials (Tg(ETM)) und des lichtemittierenden Polymers (Tg(LEP)) die folgende Ungleichung erfüllen: Tg(ETM) + Tg(LEP) > 270 und worin die Glasübergangstemperatur des elektronentransportierenden Materials größer als 140°C ist. Das Vorrichtung kann eine polymere lichtemittierende Schicht und eine nicht polymere(kleine Molekül-)elektronentransportierende Schicht umfassen, abgeschieden auf der lichtemittierenden Schicht, wobei die elektronentransportierende Schicht einen Blend eines elektronentransportierenden Materials mit kleinen Molekülträgern und elektronenspendenden Materialien umfassen kann, umfassend kleine Moleküldotierstoffe. An organic light emitting device having a light emitting layer comprising a light emitting polymer, and an electron transporting layer on the light emitting layer comprising an electron transporting material, wherein the glass transition temperatures, measured in degrees Celsius, of the electron transporting material (Tg (ETM)) and the electron transporting material light-emitting polymer (Tg (LEP)) satisfy the following inequality: Tg (ETM) + Tg (LEP)> 270 and wherein the glass transition temperature of the electron transporting material is greater than 140 ° C. The device may comprise a polymeric light emitting layer and a non-polymeric (small molecule) electron transporting layer deposited on the light emitting layer, wherein the electron transporting layer may comprise a blend of electron transporting material with small molecular carriers and electron donating materials comprising small molecule dopants.

Poly(paraphenylene vinylene) derivatives and their use as electroluminescent materials

Conjugated polymers

The invention relates to novel conjugated polymers containing one or more [1,2,5]Thiadiazolo[3,4-e]isoindole-5,7-dione (TID) repeating units, to methods for their preparation and educts or intermediates used therein, to polymer blends, mixtures and formulations containing them, to the use of the polymers, polymer blends, mixtures and formulations as organic semiconductors in, or for the preparation of, organic electronic (OE) devices, especially organic photovoltaic (OPV) devices and organic photodetectors (OPD), and to OE, OPV and OPD devices comprising, or being prepared from, these polymers, polymer blends, mixtures or formulations.

Conjugated polymers

The invention relates to novel conjugated polymers containing one or more diindeno-thieno[3,2-b]thiophene based polycyclic repeating units, to methods for their preparation and educts or intermediates used therein, to polymer blends, mixtures and formulations containing them, to the use of the polymers, polymer blends, mixtures and formulations as organic semiconductors in organic electronic (OE) devices, especially in organic photovoltaic (OPV) devices and organic photodetectors (OPD), and to OE, OPV and OPD devices comprising these polymers, polymer blends, mixtures or formulations.

Organic solderability preservative and method

An organic solderability preservative solution includes pyrazine derivatives which inhibit corrosion of metal. The solution is applied to metal surfaces of components for electronic apparatus to improve solderability of electrical connections between the components in the electronic apparatus.

Phosphor plate and light emitting device using same

본 발명의 형광체 플레이트는, 모재와, 상기 모재 중에 분산된 형광체를 포함하는 판상의 복합체를 구비하는 형광체 플레이트이며, 파장 300㎚ 내지 700㎚의 광의 흡수 스펙트럼을 측정하였을 때의, 455㎚의 흡수율을 A 455 (％)라 하고, 700㎚의 흡수율을 A 700 (％)이라 하고, 당해 형광체 플레이트의 두께를 T(㎜)라 하였을 때, (A 700 /A 455 )/T가 0.01 이상 1.00 이하를 충족하는 것이다.

Guardrail assembly

본 고안은 포스트와 가드를 개선하여 강우 및 강설에 의하여 발생하는 부식현상을 방지하여 유지 및 관리비용을 줄이고, 자동차와 충,추돌시에는 충격력을 흡수하여 가드레일과 자동차의 손상을 최소화 할 수 있도록 한 도로용 가드레일 어셈블리에 관한 것으로서, 지면에 고정되는 포스트(51)와; 상기 포스트(51)에 고정되는 가드(52)로 구성되는 가드레일 어셈블리(50)에 있어서; 상기 가드(52)는 금속재질의 심재(55)와; 상기 심재(55)의 외부에는 마감되는 피복재(56)로 구성하고; 상기 포스트(51)와 가드(52)에 고정수단(57)으로 체결할 수 있도록 형성하는 체결공(58)과; 상기 가드(52)의 피복재(56)에 등간격으로 구비하는 발광체(59)를 포함하는 것을 특징으로 한다.

Method of producing, including recovery, fluorescent marking of direct application

FIELD: data processing. SUBSTANCE: invention relates to a method of recovery of decoding an unreadable marking of direct application (MDA) into a decoded fluorescent marking of direct application (FMDA). Decoded FMDA is produced basing on available on the surface of the marked part of an unreadable MDA (FMDA) matrix of orderly arranged recesses or irregularities of the surface, which initially represented information elements of the MDA or the FMDA. Proposed method comprises pre-cleaning the unreadable MDA from filling the volume of irregularities of the surface contaminations and/or residues of polymer compositions and processing with means to increase adhesion to the marked surface of applied further polymer or prepolymer compositions. Formation of the decoded FMDA is performed by filling information elements of the unreadable marking with a fluorescent polymer composition (FPC) with further curing or drying the FPC by blowing, heating, exposing to UV-radiation and/or IR-radiation. EFFECT: invention provides stable decoding an unreadable MDA or FMDA at high reliability of reading them. 11 cl, 6 dwg, 5 ex РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 609 912 C2 (51) МПК C09D 5/22 (2006.01) C09K 11/00 (2006.01) G06K 1/12 (2006.01) G06K 19/14 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ФОРМУЛА (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ 2014119509, 15.05.2014 (24) Дата начала отсчета срока действия патента: 15.05.2014 Дата регистрации: Приоритет(ы): (22) Дата подачи заявки: 15.05.2014 (43) Дата публикации заявки: 20.11.2015 Бюл. № 32 2 6 0 9 9 1 2 R U (56) Список документов, цитированных в отчете о поиске: RU 2445700 C1, 20.03.2012;RU 2490709 C2, 20.08.2013;ЕА 19611 В1, 30.04.2014;RU 2316049 C1, 27.01.2008;ЕР 0914639 В1, 06.09.2000;US 6533181 B1, 18.03.2003;GB 2387433 B, 09.11.2005. (54) СПОСОБ ИЗГОТОВЛЕНИЯ, В ТОМ ЧИСЛЕ ВОССТАНОВЛЕНИЯ, ФЛУОРЕСЦЕНТНОЙ МАРКИРОВКИ ПРЯМОГО НАНЕСЕНИЯ (57) Формула изобретения 1. Способ восстановления ...

Wavelength conversion member, backlight unit, image display device, wavelength conversion resin composition and wavelength conversion resin cured product

파장 변환 부재는, 양자 도트 형광체와, 유기물을 포함하는 유기물층을 표면의 적어도 일부에 갖는 백색 안료와, 상기 양자 도트 형광체 및 상기 백색 안료를 포함하는 수지 경화물을 함유한다. The wavelength conversion member contains a quantum dot phosphor, a white pigment having an organic material layer containing an organic material on at least a part of the surface thereof, and a cured resin material containing the quantum dot phosphor and the white pigment.

Nitrogenous polymers used as electroluminescent materials

本发明涉及含有式(I)结构单元的含氮聚合物，式中的符号和标记有下述含义：Ar 1 、Ar 2 、Ar 3 相同或不同，为单核和/或多核的、必要时通过一个或多个桥连接的、和/或稠合的芳基和/或杂芳基，它们可任选被取代；X为一个单键、-O-、-S-、-SO-、-SO 2 、NR 3 、-CR 4 R 5 -、-CO-、-CR 6 ＝CR 7 、CR 8 R 9 -CR 10 R 11 或SiR 12 R 13 ；R 1 -R 13 为相同或不同，为H、一个有1-22个碳原子的烷基或Ar 4 ，其中Ar 4 与Ar 1 相同或不同，有与Ar 1 相同的含义；n为1、2或3。

Rare earth oxide coated phosphors and a process for preparing the same

본 발명은 전계 방출 표시 소자 및 진공 형광 표시소자에 이용될 수 있는 표면 코팅 형광체를 제공한다. 표면 코팅 형광체는 설파이드 형광체와 같은 코팅되지 않은 형광체에 도포된 희토류 산화물, 예를 들어 이트륨 산화물의 얇은 코팅을 포함한다. 또한 본 발명은 희토류 수산화물 겔 코팅 형광체를 얻기 위하여 코팅되지 않은 형광체를 희토류 수산화물 겔 형성용 용액에 접촉시키고, 용매 잔사를 제거하기 위하여 겔 코팅 형광체를 건조시키고, 그리고 건조된 희토류 수산화물 겔 코팅 형광체를 열처리하는 것을 포함하는 것을 특징으로 하는 표면 코팅 형광체의 제조방법을 제공한다. 본 발명의 표면 코팅 형광체는 개선된 음극발광 효율, 쿨롱 노화 저항성, 화학적 및/또는 산화 안정성을 보인다. The present invention provides surface coated phosphors that can be used in field emission display devices and vacuum fluorescent display devices. Surface coated phosphors include thin coatings of rare earth oxides, for example yttrium oxide, applied to uncoated phosphors, such as sulfide phosphors. In addition, the present invention is to contact the uncoated phosphor to the rare earth hydroxide gel-forming solution in order to obtain a rare earth hydroxide gel coating phosphor, to dry the gel coating phosphor to remove the solvent residue, and to heat the dried rare earth hydroxide gel coating phosphor It provides a method for producing a surface-coated phosphor, characterized in that it comprises. The surface coated phosphors of the present invention exhibit improved cathodic luminescence efficiency, coulomb aging resistance, chemical and / or oxidative stability.

Method of preparating TiO2 Phosphor Composite as Photocatalyst by a sol-gel method

졸-겔(sol-gel) 방법에 의하여 축광체 분말에 이산화티타늄(TiO 2 )을 코팅시킴으로써 이산화티타늄/축광체 복합소재를 제조하는 방법이 개시된다. 본 발명의 방법에 따라 제조된 이산화티타늄/축광체 복합소재는 축광체로부터 발광되는 빛에 의해 이산화티타늄이 여기되어 광반응이 일어날 수 있기 때문에 태양광이 차단된 어두운 조건 하에서도 축광체가 발광되는 일정시간 동안 광촉매반응이 지속가능한 우수한 광촉매 소재이다. 따라서 현재 상용화된 이산화티탄산 소재보다 더욱 광범위하게 활용될 수 있고 각종 유해물질 저감 장치, 수질 및 공기정화기 등에 유용하게 적용될 수 있다. 이산화티타늄, 졸-겔 방법, 광촉매, 발광재료, 분말코팅

Semiconductor nanoparticle - based light emitting devices and associated materials and methods

양자점 발광 소자들의 제조 방법에 사용되는 제법과 상기 제법들에 관한 것으로, 발광 소자를 제조하는 데 사용되는 제제(formulation)를 제공하며, 상기 제제는 광학적 투명 매질(optically transparent medium)에 포함된 다수의 개개의 마이크로비드들 내에 결합된 반도체 나노 입자의 집단(population)을 포함하며, 상기 나노 입자 함유 매질은 호스트 발광 다이오드(LED) 봉지 매질 내에 내장된다. The present invention relates to a process for producing quantum dot light-emitting devices and a process for producing the same, which provides a formulation used for manufacturing a light-emitting device, which comprises an optically transparent medium, A population of semiconductor nanoparticles bound in individual microbeads, wherein the nanoparticle containing medium is embedded in a host light emitting diode (LED) encapsulation medium.

Phosphor and radiation detector

FIELD: medicine; physics.SUBSTANCE: inventions relate to medicine, high energy physics and natural resource exploration and can be used in scanners and radiation counters. Phosphors with a garnet structure are co-doped with a monovalent or divalent cation of at least one type in a molar ratio of 7,000 ppm or less relative to all cations. Phosphors can be made in the form of a single crystal and have the following chemical formulae: CeREMO, where 0.0001≤x≤0.3, 0≤y≤0.5 or -0.5≤y≤0, M is one or more cations selected from Al, Ga and Sc, and RE is one or more cations selected from La, Pr, Gd, Tb, Yb, Y and Lu; GdCeREMO, where 0.0001≤x≤0,1, 0<y<0.5 or -0.5<y<0, 0≤z<3, M is one or more cations selected from Al, Ga and Sc, and RE is one or more cations selected from La, Pr, Tb, Yb, Y and Lu. Examples of co-doped cations are Li or Mg. Radiation detector comprises said phospho, which absorbs γ-radiation, X-ray radiation, α-radiation, neutron radiation and high-energy photons and emits optical radiation, as well as a photodetector detecting its emission.EFFECT: phosphors of the invention have a short fluorescence lifetime, high transparency, light output and luminescence intensity.13 cl, 3 tbl, 3 dwg, 11 ex РОССИЙСКАЯ ФЕДЕРАЦИЯ ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) (19) RU (11) (13) 2 670 919 C9 (51) МПК C09K 11/80 (2006.01) C09K 11/78 (2006.01) C09K 11/54 (2006.01) C09K 11/55 (2006.01) C09K 11/62 (2006.01) G01T 1/20 (2006.01) G01T 3/06 (2006.01) СКОРРЕКТИРОВАННОЕ ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ Примечание: библиография отражает состояние при переиздании (52) СПК C09K 11/7774 (2018.02); C09K 11/54 (2018.02); C09K 11/55 (2018.02); C09K 11/62 (2018.02); G01T 1/2012 (2018.02); G01T 3/06 (2018.02) (21)(22) Заявка: 2016146155, 30.04.2015 30.04.2015 01.05.2014 JP 2014-094377; 06.11.2014 JP 2014-225932; 09.04.2015 JP 2015-079858 (73) Патентообладатель(и): ТОХОКУ ТЕХНО АРЧ КО., ЛТД. (JP), С ЭНД А КОРПОРЕЙШЕН (JP) (43) Дата публикации заявки: 01.06. ...

Wavelength conversion member and light emitting device using the same

本发明提供在照射LED、LD的光的情况下，经时的发光强度的降低少的波长转换部件以及使用其的发光器件。该波长转换部件的特征在于，其为在玻璃基质中分散有无机荧光体的波长转换部件，上述玻璃基质以摩尔％计，含有30～85％的SiO 2 、0～20％的B 2 O 3 、0～25％的Al 2 O 3 、0～3％的Li 2 O、0～3％的Na 2 O、0～3％的K 2 O、0～3％的Li 2 O+Na 2 O+K 2 O、0～35％的MgO、0～35％的CaO、0～35％的SrO、0～35％的BaO、0.1～45％的MgO+CaO+SrO+BaO、和0～4％的ZnO，上述无机荧光体为选自氧化物荧光体、氮化物荧光体、氧氮化物荧光体、氯化物荧光体、酰氯化物荧光体、卤化物荧光体、铝酸盐荧光体和卤磷酸盐化物荧光体中的至少1种。

Method for manufacturing light emitting device

본 발명의 일 측면은, 여기광을 방출하는 발광소자와 상기 발광소자가 탑재되는 기판을 준비하는 단계와, 상기 발광소자에서 방출되는 여기광을 흡수하여 가시광을 방출하며 아래의 화학식 (1)로 표시되는 불화물계 형광체를 준비하는 단계 및 상기 불화물계 형광체를 상기 발광소자 및 기판 중 적어도 하나 상에 형성하는 단계를 포함하며, 상기 화학식(1)로 표시되는 불화물계 형광체를 준비하는 단계는, K 2 MnF 6 및 Na 2 MnF 6 중 적어도 하나를 포함하는 제1 수용액을 준비하는 단계와, 상기 제1 수용액과 상기 원소 M을 함유한 제1 원료물질 및 상기 원소 A를 함유한 제2 원료물질을 이용하여 제1 침전물을 형성하는 단계와, 상기 제1 침전물을 적어도 40wt%의 불화수소산 수용액으로 세정하는 단계 및 상기 세정된 제1 침전물을 건조시키는 단계를 포함하는 것을 특징으로 하는 발광장치 제조방법을 제공한다. 화학식 (1): A x MF y :Mn 4 + (단, 2≤ x ≤ 3 및 4 ≤ y ≤ 7을 만족하고, 상기 원소 A는 Li, Na, K, Rb, Cs으로 구성된 그룹으로부터 선택된 적어도 1종이며, 상기 원소 M은 Si, Ti, Zr, Hf, Ge 및 Sn으로 구성된 그룹으로부터 선택된 적어도 1종임)