Abstract:
PURPOSE: A nano-particle oxide solar cell module and a method for manufacturing the same are provided to minimize the power consumption and to improve the productivity by minimizing the distance between solar cells. CONSTITUTION: A plurality of first transparent electrode(22a) are formed on the first substrate(20). A plurality of first electrodes(23) are formed on the first transparent electrodes. A plurality of second transparent electrodes(22b) are formed on the second substrate(21). A plurality of second electrodes(24) are formed on the second transparent electrodes. A shield(25) is formed to couple the first transparent and second transparent electrode. A conductive line(27) connects the first electrode to the second electrode.
Abstract:
PURPOSE: A method for fabricating a flexible dye-sensitized solar cell is provided to remarkably improve photo conversion efficiency as compared with a conventional low temperature solar cell by forming nanocrystalline oxide layer on a conductive polymer plate and by reducing a platinum ion solution so as to form a platinum layer. CONSTITUTION: Nanocrystalline transition metal oxide as a solute, 2-propanol as a solvent, acetic acid and distilled water are mixed to make a nanocrystalline oxide colloid solution(100). The nanocrystalline oxide colloid solution is applied to the surface of a bendable conductive substrate(110). The solvent is removed from the substrate having the nanocrystalline oxide colloid solution to form a nanocrystalline oxide layer(120). Dye molecules are absorbed to the nanocrystalline oxide layer to form a semiconductor electrode(130).
Abstract:
PURPOSE: Provided is a non-aqueous polymer electrolyte for a secondary battery, which can improve impregnation and maintenance properties of electrolyte solution, a yield of cations, and ionic conductivity. CONSTITUTION: The polymer electrolyte is produced by a process comprising the steps of: (10) dissolving a polymer containing an acrylonitrile repeating unit and an inorganic material in a cosolvent to prepare an acrylonitrile polymer solution, wherein the polymer containing the acrylonitrile repeating unit is one selected from the group consisting of polyacrylonitrile, copolymer of acrylonitrile and butadiene, copolymer of acrylonitrile and methacrylonitrile, terpolymer of acrylonitrile, butadiene and acrylic acid, and etc.; (20) forming a porous polymer film from the acrylonitrile polymer solution by a phase-conversion method; (30) soaking the porous polymer film in an electrolyte having a lithium salt and a cationic organic additive.
Abstract:
PURPOSE: A dye-sensitized solar cell having a semiconductor electrode of a nanocrystalline oxide is provided to increase a voltage by mixing an acetated material and chloride with the nanocrystalline oxide as a main electrode material such that the acetated material and the chloride include positive ions whose oxidation number is 2 or 1. CONSTITUTION: The semiconductor electrode(10) has a mixture layer(14) including the acetated material and the chloride that include a nanocrystalline oxide and the positive ions whose oxidation number is 2 or 1. The semiconductor electrode includes dye atoms chemically absorbed to the mixture layer. A confronting electrode(20) faces the semiconductor electrode. An electrolyte solution(30) is interposed between the semiconductor electrode and the confronting electrode.
Abstract:
A method for forming a metal oxide nanotube according to an embodiment of the present invention comprises the steps of: providing a metal electrode and a counter electrode in an electrolyte comprising a surfactant negatively charged; and applying a voltage to the metal electrode and the counter electrode to form a metal oxide nanotube at the metal electrode. The metal oxide nanotube comprises a (001) surface. [Reference numerals] (AA) Fomring an electrolyte comprising a surfactant; (BB) Arranging a metal electrode and a counter electrode in the electrolyte; (CC) Fomring a metal oxide nanotube on the metal electrode surface by applying a voltage to the electrodes; (DD) Removing the electrolyte and the surfactant remaining on the metal oxide nanotube
Abstract:
PURPOSE: A forming method of metal oxide nanotube is provided to include metal nanoparticles causing the plasmon phenomenon in the inner wall of the metal oxide nanotube, thereby increasing the light efficiency of dye-sensitized solar cell. CONSTITUTION: A forming method of metal oxide nanotube comprises following steps. A polymeric fiber including metal nanoparticles is formed. A metal oxide thin film is formed on the surface of the polymeric fiber by depositing metal oxide. The metal oxide nanotube including the metal nanoparticles on the inner wall is formed by removing the polymeric fiber. The polymeric fiber is formed by spinning the solution in which the metal nanoparticles and the polymer are mixed. The metal nanoparticles are able to cause the plasmon phenomenon. The metal oxide thin film is formed with atomic layer deposition method. The thickness of the metal oxide thin film is 50-150Å. [Reference numerals] (S10) Polymeric fiber including metal nanoparticles is formed; (S20) Metal oxide thin film is formed on the surface of the polymeric fiber by depositing metal oxides; (S30) Metal oxide nanotube including the metal nanoparticles is formed by selectively removing the polymeric fiber
Abstract:
본 발명은 염료감응 태양전지 반도체 전극용 비수용성 페이스트 조성물, 이의 제조방법, 이를 이용한 염료감응 태양전지에 관한 것으로, 본 발명에 따른 염료감응 태양전지 반도체 전극용 비수용성 페이스트 조성물은 TiO 2 나노입자 용액, 유기용매, 결합제, 및 계면활성제에 액상의 TiO 2 를 더 포함한다. 상기 비수용성 페이스트 조성물은 액상의 TiO 2 가 TiO 2 나노입자들 표면에 코팅되어 염료감응 태양전지의 반도체 전극의 전기적 접촉을 향상시켜 광전변환효율을 현저히 개선시킨다. 염료감응 태양전지, 반도체 전극, 페이스트 조성물, 액상의 TiO2
Abstract:
PURPOSE: A dye-sensitized solar cell and a manufacturing method thereof are provided to efficiently transmit light having proximately 440nm to 660nm wave lengths by adsorbing transformed ruthenium dye into a nano particle. CONSTITUTION: A first conductive film(102) is arranged on one side of a first substrate(100). A first nano particle oxide thin film(104') is arranged on one side of the first conductive film. The first nano particle oxide thin film includes a transformed compound of ruthenium dye. A second nano particle oxide thin film(106') is arranged on one side of the first nano particle oxide thin film. A second electrode(210) comprises a second substrate(200), a second conductive film(202), and a third conductive film(204).
Abstract:
PURPOSE: A solar cell is provided to reduce the thickness of the solar cell by arranging a glass tube and a protection unit on the side of the solar cell. CONSTITUTION: A first planar electrode(100) includes a through hole(104a,104b). A nano oxide layer(114) is formed on one side of a second planar electrode(112). A glass tube(106) is inserted into the through hole of the first planar electrode. A sealant(116) connects the edges of the first and second planar electrodes. An electrolyte(122) is filled between the first and second planar electrodes.
Abstract:
PURPOSE: A solar cell is provided to protect a glass tube from a physical impact by including a protection unit in the glass tube. CONSTITUTION: A catalyst layer(102) is formed on one side of a first planar electrode(100). A nano oxide layer(108) is formed on one side of a second planar electrode(106). A glass tube(112) is inserted into a through hole of the first planar electrode. An electrolyte(120) is filled between the first and second planar electrodes. A protection unit is located on the first planar electrode to protect the glass tube.