LIGHT SHIELDING FILM AND PREPARING METHOD THEREOF
The present invention refers to a light shield and process for the number bath method are disclosed. Smart window (smart window) is generally the first voltage to the switching device is formed so that the amount of light passing through the light permeability which window number or heat in order to substrate. I.e., voltage smart window by transparent, opaque or translucent is equipped at a plasticizer to be changed from glass, lighting glass or smart glass (smart glass) as essential for substrate. In addition, utilizing the smart window opening of indoor space can be utilized as disposed partition or soffit skylight, highway sign, Bulletin board, a wall tapestry, switch clock or advertisement screen can be, car, bus, aircraft, watercraft or train of windows (windows) or sunroof as simple processes disclosed. The next generation of smart window is cut into an enterprise number associated with energy of high functional and an enormous increase in development followed by studies in advanced while engine propulsion etc. budget. The airflow unit is an polymer dispersed liquid crystal (polymer dispersed liquid crystal, PDLC) number bath and using smart window of the existing method which, between a pair of glass substrate by injecting polymer dispersion liquid crystal (liquid crystal, LC) dispersed in the polymer matrix has a fine structure. However, in the case of smart window with a liquid exists in the number of power-saving occurs when electrodes measured disclosed. Korean publicized patent number 2013 - 0037600 polymer dispersion type liquid crystal element ring including the disclosure but smart window technique, the aforementioned door number point when alternative number was inaccurate. The present invention refers to an energy consumption without the excessive light mode and capable of changing the light shield layer for shielding mode hereinafter under public affairs intended for the number. The present invention refers to the number under public affairs optic and is intended for high light transmitting mode. The present invention refers to said light shield film under public affairs intended for a number the number bath method. 1. Substrate; Said at least one pair 1 are disposed in a predetermined interval on a metal nano partition; and Said applying a voltage to the power or ground metal nano metal nano partition cartridges connected; including a, light shielding film. 2. In over 1, said at least two metal nano compartment provides a linear pattern, light shielding film. 3. In over 1, e.g. cartridges voltage is applied to each pair of said metal nano metal nano titanate is connected by the same expanded shut-off light transmissive, light shielding film. 4. In over 1, e.g. by UV radiation is connected positively charged by the expanded urging each pair of metal nano shut-off light transmissive, light shielding film. 5. In over 1, said same predetermined interval charge charged metal nano repulsive force generated between the partition enable signals is a target, light shielding film. 6. In on 1, 5 to 200 nm in thickness of said metal nano-partition, light shielding film. 7. In over 1, metal nano is from 1,000 to 5,000 nm in said, light shielding film. 8. In over 1, 3 and at least a pair of metal nano partition, one of low value greater than that of the remaining pair 1 pair, that is located between the remaining pair of, light shielding film. 9. In over 1, said metal is In, Co, Si, Ge, Au, Pd, Pt, Ru, Re, Mg, Zn, Hf, Ta, Rh, Ir, W, Ti, Ag, Cr, Mo, Nb, Al, Ni, Cu, and WTi 1 is at least one selected from the group consisting of, light shielding film. 10. 1 to 9 on either light shield layer formed with terms smart window. 11. Smart window on 10 including Image display device. 12. A predetermined thickness on a substrate polymer pattern further includes; Forming a metal layer on said polymer pattern are formed; An ion milling etching said metal layer, said polymer coating layer thickness nano pattern; Said polymer pattern forming a stand-alone number metal nano partition; and A lower electrode or ground portions connecting said metal nano step; including a, light shield film number bath method. 13. In on 12, said realizing the linear polymer pattern, light shield film number bath method. 14. In 12 above, conductive particles to said coating layer ion milling tearing out, off and forms the surface attached to the polymer pattern, light shield film number bath method. 15. In on 12, said ion milling is 10-5 Torr to 10-3 Torr to accelerating plasma is carried out to a pressure of at 100ev 1500eV, light shield film number bath method. 16. In on 12, 5 to 200 nm in thickness of said metal nano-partition, light shield film number bath method. 17. In on 12, said metal nano is from 1,000 to 5,000 nm in, light shield film number bath method. 18. In on 12, said metal is In, Co, Si, Ge, Au, Pd, Pt, Ru, Re, Mg, Zn, Hf, Ta, Rh, Ir, W, Ti, Ag, Cr, Mo, Nb, Al, Ni, Cu, and WTi 1 is at least one selected from the group consisting of, light shield film number bath method. 19. In on 12, at least 3 of them with lower polymer pattern includes a plurality of polymer pattern between the higher polymer pattern on a flat, light shield film number bath method. Light shielding film of the present invention for thermally processing the converted light and the light blocking mode hereinafter, nano thickness partition can be minimizes light by light transmittance mode. The, applied to smart window partition, skylight, sunroof, Bulletin board, advertisement screen, can be generated from a display device utilized. Figure 1 shows a schematic diagram of the light shielding film (transparent mode) according to one implementation of the present invention also hemispheric are disclosed. Figure 2 shows a schematic diagram of the light shielding film (light shielding mode) according to one implementation of the present invention also hemispheric are disclosed. Figure 3 shows a schematic diagram of the light shielding film (light shielding mode) according to one implementation of the present invention also hemispheric are disclosed. Figure 4 shows a schematic diagram of the method of the present invention in one embodiment according to light shielding film hole number bath also are disclosed. The present invention refers to substrate; said at least one pair 1 are disposed in a predetermined interval on a metal nano partition; said partition and applying a voltage to the power or ground metal nano metal nano cartridges connected; whereby, the converted light mode and which hereinafter for thermally shielding, nano thickness partition light by light transmittance mode minimizes the number bath can be light shield and process for the method are disclosed. Hereinafter, with reference to the drawing of the present invention specific embodiment form produced in less than 1000. But, the next drawing are appended to the specification of the present invention preferred one embodiment example in which, further understanding of the invention the video and feature of the present invention which serves the aforementioned three, in the present invention refers to a confined only to the interpreted to such drawing like a WD other. As shown in the light shielding film of the present invention also 1, substrate (100); said substrate (100) disposed with a predetermined interval on at least one pair of metal nano partition 1 (200); and said metal nano partition (200) applying a voltage to the power or metal nano partition (200) connected to ground; without using a tool. Substrate (100) having proper strength if this resin does not specifically defined, such as silicone, quartz, glass, polymer, metal, metal oxide, non-metallic oxide, such as norbornene or polycyclic norbornene monomer including a cycloolefin monomer unit having a cycloolefin-based derivatives, diacetyl cellulose, triacetyl cellulose, acetyl cellulose butyl rate, isobutyl ester cellulose, propionyl cellulose, butyrolactone pro blood Oniel cellulosereel cellulose or acetyl cellulose in NaCl, ethylene - vinyl acetate copolymer, polyester, polystyrene, polyamide, polyether-imide, polyacrylamide, polyimide, polyether sulfone, polysulfone, polyethylene, polypropylene, poly methylpentene, polyvinyl chloride, poly vinylidene chloride, polyvinyl alcohol, polyvinyl acetal, polyether ketone, polyether ether ketone, polyether sulfone, slurry by, polyethylene terephthalate, polybutylene terephthalate, polyethylene naphthalate, polycarbonate, polyurethane, epoxy substrate (100) including a front end equipped 99900 00212999 implementation being. These materials can be mixed alone or in combination with at least one 2. Substrate (100) has a thickness of not specifically defined, for example 10 to 500 micro m implementation being. Metal nano partition (200) substrate (100) positioned on, the present invention according to metal nano partition (200) in its thickness at the nano level is making a partition by big. Metal nano partition (200) since its formation according to its thickness at the nano level is transmittance can be minimizes. Metal nano partition (200) in which there is the at least one pair 1, each metal nano partition (200) spaced apart is disposed thereon. The same predetermined interval charge charged metal nano partition (200) be a movable distance between like charged. Said metal is selected interval partition (200) thickness, height, type of metal, can be adjustable according to the voltage applied. Metal nano partition (200) does not specifically defined if the thickness of the transmittance can be improved within a range, for example 5 to 200 nm in thickness and the number, preferably 5 to 100 nm, more preferably 5 to 50 nm, most preferably 10 to 30 nm implementation being. There may be a door number is below 5 nm thickness and endurance, and the pressure drop is greater than 200 nm, even when the same charge charged sufficiently it does not bend repulsive force between shielding effect can be inverted triangular screw. Metal nano partition (200) according to the height of the the after alcoholic beverage it will do shielding mechanism which can sufficiently masking function if not specifically defined, for example 1,000 nm to 5,000 nm implementation being. the after alcoholic beverage it will do mechanism is below 1,000 nm thickness at the center of the shielding effect can be curved according too short inverted triangular screw, the degradation in the transmittance according to the viewing angle greater than 5,000 nm, deterioration of the durability can be door number is generated. Metal nano partition (200) but is not limited to such placement of a particularly form, for example as shown in fig. 1 and 2 linear pattern the Optocomponents. Metal nano partition (200) provided the impermeable formed out of metal, for example In, Co, Si, Ge, Au, Pd, Pt, Ru, Re, Mg, Zn, Hf, Ta, Rh, Ir, W, Ti, Ag, Cr, Mo, Nb, Al, Ni, Cu, and WTi 1 is formed by at least one metal selected from the group consisting of can be a, the number one are not disclosed. Said light shielding film of the present invention metal nano-partition (200) (not shown) applying a voltage to the power supply section for supplying or metal nano partition (200) (not shown) connected to ground without using a tool. When power to the system including, at least one pair of metal nano partition 1 (200) to metal nano-voltage is applied to the partition wall (200) are the same titanate. The, metal nano partition (200) as shown in fig. 2 between like charged repulsive force is equal to the light to one end. Metal nano partition (200) so that the impermeability, the light transmission can be blocking (light shielding mode). Then, the mixing ratio of the photo coupler and intercept power supply portion can be light-transmitting (transparent mode), the light shielding mode hereinafter for the process from the converted. When a ground including, irradiated light photoelectric effect (specifically photoelectron emission effect) by metal nano partition wall (200) and the positively charged, said invention can be easy and light transmissive. Then, metal nano partition (200) by fin portion is ground to ground photo can be light-transmitting, without separate energy supply process from the light shielding mode converted. Said light metal is selected partition (200) to at least two metal limit as shorter than a wavelength of light, for example ultraviolet can be a, the number can be adjusted depending on the type of metal not one. If necessary, the present invention refers to a pair of metal nano partition at least 3 (200) to be formed, one of the remaining pair to a value greater than 1 pair is low, the remaining pair of to be arranged between a can. 3 also is in such a case is exemplified in the nanometer range. The present invention refers to metal nano partition (200) charge charged the same three, also 2 pairs such as metal nano partition (200) including a case, a pair of metal nano partition wall (200) and a pair of metal nano partition b (200) is arranged far generated, space therebetween to move away therefrom. The, can the gap and patterning. The temperature detector, such as a pair of metal nano partition also 3 2 (200) with low height than between 1 pair of metal nano partition (200) when located, metal nano partition (200) pair space light transmission film thereof can. The, than can exhibit good light shielding effect. In addition, the present invention refers to said light shield with oxidation number smart window under public affairs substrate. For thermally shielding mode and transparent and the converted smart window of the present invention hereinafter, nano thickness so that the optic can be transmitted from the transmitting mode minimizes. Smart window of the present invention can be applied if site-transmission need not one number. For example partition, skylight, sunroof, Bulletin board, advertisement screen, but as to the display device, the one number are not disclosed. In addition, the present invention refers to said Image display device including a smart window number under public affairs substrate. Image display device include liquid crystal display device, OLED, but may be flexible displays, which are not limited to the known it was found using integral all Image display device can for example. In addition, the present invention refers to said bath a number of smart window method number under public affairs substrate. Hereinafter of the present invention in one implementation method according to number of smart window bath are described substrate. First, also 4 (a) as the substrate (100) on polymer pattern (400) formed on the substrate. Polymer pattern (400) substrate (100) (not shown) is formed on polymer resin layer, anti-reflective coating can be same. Polymer pattern (400) is returned to the partition metal nano (200) is removed height of, polymer pattern (400) of the present invention metal nano controlling the height of the partition wall (200) height can be selected. Polymer resin layer is formed on the it was found using publicly known polymer resin grudge without number can be, for example [thok[thok] Clock, cellulosic, acrylic, vinyl chloride, vinyl acetic acid, polyvinyl alcohol, polyurethane, be a polymer resin such as polyester. They can be mixed alone or in combination with at least one 2. Polymer resin layer patterning method are specially without limit for example screen-printing, gravure printing, flexographic printing, offset printing, inkjet coating, dispenser printing, photolithography, such as nano-imprinting method can be used. Polymer pattern (400) can be configured to for example linear pattern. Preferably they are hereinafter for bending by a repulsive force can be. In addition, at least 3 of polymer pattern (400) includes a plurality of polymer pattern them with lower (400) higher polymer pattern (400) so that between can be formed. According the after alcoholic beverage it will do process they are, as shown in also 3 metal nano-partition (200) can be formed, than can exhibit good light shielding effect. After, such as said polymer pattern also 4 (b) (400) are formed (100) metal layer on a (300) formed on the substrate. Metal layer (300) at least one ferritic 1 metal, physical vapor deposition, chemical vapor deposition, plasma deposition, plasma polymerization process, thermal deposition method, a thermal oxidation method, by using an anodizing process, cluster ion-beam deposition, screen printing, gravure printing, flexographic printing, offset printing, inkjet coating, dispenser printing, it can be formed such as photolithography method, the number one are not disclosed. After, (c) said metal layer such as also 4 (300) and an ion milling etching, said polymer pattern (400) side of carbide nano thickness formed on the substrate. For example argon ion for forming gas, helium, nitrogen, hydrogen, oxygen or a combination of red may be gas, preferably argon can be. Ion milling conditions not specifically defined, for example 10-5 Torr to 10-3 Torr a pressure of at gas formed plasma, plasma can be accelerated to 100eV - 1500eV widthwise. Energy less than 100eV when metal layer (300) may be difficult for etching, the polymer pattern greater than 1500eV (400) to form the metal nano-partition (200) difficult to be produced. After, such as polymer pattern also 4 (d) (400) by a stand-alone number, formed on a top surface of metal nano-partition (200) to a level that leaves only be. Metal nano partition (200) does not specifically defined if the thickness of the transmittance can be improved within a range, for example 5 to 200 nm and the number one, preferably 5 to 100 nm, more preferably 5 to 50 nm, most preferably 10 to 30 nm implementation being. There may be a door number is below 5 nm thickness and endurance, 200 nm can be greater than the pressure drop. Metal nano partition (200) according to the height of the aforementioned shielding mechanism which can sufficiently masking function if not specifically defined, for example 1,000 nm to 5,000 nm implementation being. the after alcoholic beverage it will do mechanism is below 1,000 nm thickness at the center of the shielding effect can be curved according too short inverted triangular screw, the degradation in the transmittance according to the viewing angle greater than 5,000 nm, deterioration of the durability can be door number is generated. After, said metal nano partition (200) (not shown) power unit (not shown) are connected to a ground or. The load of the converted number or shade the light due to or can be transparent, translucent or shade the light due to process from the converted light radiation or ground. 100: substrate 200: metal nano partition 300: metal layer 400: polymer pattern The present invention relates to a light shielding film and a preparing method thereof. More particularly, the light shielding film comprises: a substrate; a pair of metal nano barrier walls arranged at a predetermined interval on the substrate; and a grounding unit connected to a power supply unit or the metal nano barrier wall to apply a voltage to the metal nano barrier wall. Accordingly, it is easy to switch to a light emission mode and a light shielding mode. A decrease in light transmittance in the light emission mode is minimized by including the nano barrier wall. COPYRIGHT KIPO 2017 Substrate; said at least one pair 1 are disposed in a predetermined interval on a metal nano partition; said partition and applying a voltage to the power or ground metal nano metal nano cartridges connected; including a, light shielding film. According to Claim 1, said at least two metal nano compartment provides a linear pattern, light shielding film. According to Claim 1, e.g. the same cartridges voltage is applied to said metal nano metal nano titanate, a shut-off one end of the light to a repulsive force generated by light transmissive, light shielding film. According to Claim 1, e.g. the positively charged metal nano light irradiation, the light to one end of a repulsive force generated by a shut-off light transmissive, light shielding film. According to Claim 1, said same predetermined interval is a repulsive force between the partition a target charge charged metal nano enable signals, light shielding film. According to Claim 1, 5 to 200 nm in thickness of said metal nano-partition, light shielding film. According to Claim 1, metal nano is from 1,000 to 5,000 nm in said, light shielding film. According to Claim 1, 3 and at least a pair of metal nano partition, one of low value greater than that of the remaining pair 1 pair, that is located between the remaining pair of, light shielding film. According to Claim 1, said metal is In, Co, Si, Ge, Au, Pd, Pt, Ru, Re, Mg, Zn, Hf, Ta, Rh, Ir, W, Ti, Ag, Cr, Mo, Nb, Al, Ni, Cu, and WTi 1 is at least one selected from the group consisting of, light shielding film. Claim 1 to 9 terms light shield layer formed with either smart window. Smart window claim 10 including Image display device. A predetermined thickness of each polymer pattern on a substrate; forming a metal layer on said polymer pattern are formed; and an ion milling etching said metal layer, said polymer coating layer thickness nano pattern; said polymer pattern forming a stand-alone number metal nano partition; and said step for connecting the power supply or ground metal nano cartridges; including a, light shield film number bath method. According to Claim 12, said realizing the linear polymer pattern, light shield film number bath method. According to Claim 12, wash-off metal particles to said coating layer ion milling tearing out, forms attached to the polymer pattern, light shield film number bath method. According to Claim 12, said ion milling is 10-5 Torr to 10-3 Torr to accelerating plasma is carried out to a pressure of at 100ev 1500eV, light shield film number bath method. According to Claim 12, 5 to 200 nm in thickness of said metal nano-partition, light shield film number bath method. According to Claim 12, said metal nano is from 1,000 to 5,000 nm in, light shield film number bath method. According to Claim 12, said metal is In, Co, Si, Ge, Au, Pd, Pt, Ru, Re, Mg, Zn, Hf, Ta, Rh, Ir, W, Ti, Ag, Cr, Mo, Nb, Al, Ni, Cu, and WTi 1 is at least one selected from the group consisting of, light shield film number bath method. According to Claim 12, at least 3 of them with lower polymer pattern includes a plurality of polymer pattern between the higher polymer pattern on a flat, light shield film number bath method.
