Patent application number | Description | Published |
20090114278 | DYE-SENSITIZED SOLAR CELL AND FABRICATION METHOD THEREOF - A dye-sensitized solar cell and a fabrication method thereof are disclosed. A method for fabricating a dye-sensitized solar cell, includes forming a sacrifice layer comprising colloidal particles on a transparent conductive substrate, supplying a photoelectrode material comprising transition metal oxide nano particles onto the sacrifice layer, thereby filling the transition metal oxide nano particles between the colloidal particles, removing the sacrifice layer by thermal treatment to prepare a photoelectrode having an inverse opal structure, and adsorbing dye molecules onto the photoelectrode. | 05-07-2009 |
20100206361 | PREPARATION METHOD OF OXIDE ELECTRODE FOR SENSITIZED SOLAR CELL AND SENSITIZED SOLAR CELL USING THE SAME - The present invention relates to a method of manufacturing an oxide electrode for a dye-sensitized solar cell including metal oxide nanoparticles by using a miller, and a dye-sensitized solar cell manufactured by using the same. More particularly, the present invention provides a method of manufacturing an oxide electrode for a dye-sensitized solar cell. The method includes (a) mixing metal oxide nanoparticles, a binder resin, and a solvent to prepare a metal oxide paste, (b) coating the metal oxide paste to a miller and pulverizing the metal oxide nanoparticles to prepare a paste including the metal oxide nanoparticles uniformly dispersed therein, and (c) coating the paste including the metal oxide nanoparticles dispersed therein on a conductive transparent substrate, performing a heat treatment of the resulting substrate, and adsorbing a dye thereon to manufacture the conductive electrode. | 08-19-2010 |
20100247892 | ELECTROCONDUCTIVE PARTICLE AND ANISOTROPIC CONDUCTIVE FILM COMPRISING SAME - The present invention discloses an electroconductive particle comprising (a) a polymer microparticle, and (b) a graphene coating layer grafted on the polymer microparticle, which has improved long-term stability of the conductivity, surface conductivity, durability, and thermal resistance, and is applicable for producing an anisotropic conductive film used for packaging electronic devices. | 09-30-2010 |
20100263908 | METHOD FOR FABRICATION OF CONDUCTIVE FILM USING CONDUCTIVE FRAME AND CONDUCTIVE FILM - Disclosed are a method for fabricating a conductive film, and a conductive film fabricated by the same. The method comprises: forming a mixed solution consisting of at least one of a metallic precursor and a conductive polymer; spraying atomized droplets of the mixed solution on a surface of a substrate so as to form conductive frames; and coupling carbon nanotubes to the conductive frames so as to enhance electric conductivity. Accordingly, the conductive film can have enhanced electric conductivity, and can be easily fabricated. | 10-21-2010 |
20100266838 | METHOD FOR FABRICATION OF CONDUCTIVE FILM USING METAL WIRE AND CONDUCTIVE FILM - A method for fabricating a conductive film, and a conductive film fabricated by the same. The method comprises: preprocessing carbon nanotubes by at least one of a cutting step using ultrasonic wave, and a chemical reaction step with acid; dispersing the carbon nanotubes in a solvent; mixing metal wires with the carbon nanotubes dispersion solution; and forming an electrode layer by coating the mixed resultant on a substrate. Accordingly, can be easily fabricated the conductive film having high transmittance and high electric conductivity. | 10-21-2010 |
20110174368 | COMPOSITE ELECTROLYTE AND THE PREPARATION METHOD THEREOF, AND DYE-SENSITIZED SOLAR CELL USING THE SAME - A composite electrolyte, a preparation method thereof, and a dye-sensitized solar cell based on an electrolyte with hollow particles of metal oxide are disclosed. A dye-sensitized solar cell includes a photoelectrode substrate, a counter electrode substrate facing the photoelectrode substrate, a light absorbing layer formed on an inner surface of the photoelectrode substrate and having a dye adsorbed thereto, and a composite electrolyte, characterized in that an electrolyte is mixed with hollow particles composed of metal oxide particulates, filled between the light absorbing layer and the counter electrode substrate. | 07-21-2011 |
20110294660 | REUSABLE HEAVY METAL REMOVER AND FABRICATION METHOD THEREOF - A heavy metal remover of a core-shell structure comprises a core including carbon nanotubes (CNT) that can aggregate and scatter in a reversible manner, and a shell including iron oxide. A method for fabricating a heavy metal remover of a core-shell structure comprises (a) preparing a carbon nanotube (CNT) aqueous solution where acid-treated CNTs have dissolved, (b) mixing the CNT aqueous solution with an aqueous solution of polymer template particles, thereby forming a CNT layer on the surface of the template particles, (c) mixing the solution having undergone the step (b) with a polymer electrolyte having positive charges, thereby forming a polymer layer on an outer surface of the CNT layer, (d) adding FeSO | 12-01-2011 |
20120168383 | GRAPHENE-IRON OXIDE COMPLEX AND FABRICATION METHOD THEREOF - A graphene-iron oxide complex consists of graphene and needle-like iron oxide nanoparticles grown on a surface of the graphene, and a fabricating method thereof includes (A) preparing a reduced graphene dispersed solution, (B) mixing the dispersed solution with a solution containing iron oxide precursors to prepare a mixture, (C) stirring the mixture to prepare a graphene-iron oxide dispersed solution containing the graphene-iron oxide complex that needle-like iron oxide nanoparticles are grown on the surface of the graphene, and (D) separating the graphene-iron oxide complex from the graphene-iron oxide complex dispersed solution. | 07-05-2012 |
20120190139 | PREPARATION METHOD FOR REDUCED GRAPHENE OXIDE USING SULFONYL HYDRAZIDE-BASED REDUCING AGENT AND OPTOELECTRONIC DEVICES THEREOF - A method for fabricating a graphene thin film by reducing graphene oxide and a method for fabricating an optoelectronic device using the same are provided. The method for fabricating a graphene thin film comprises: (a) preparing graphene oxide; (b) preparing graphene through reducing the graphene oxide by a sulfonyl hydrazide-based reducing agent; (c) preparing a graphene dispersed solution by dispersing the graphene into an organic solvent; and (d) fabricating a graphene thin film by applying the graphene dispersed solution. The sulfonyl hydrazide-based reducing agent may be a compound having a sulfonyl hydrazide substituent of Chemical Formula 1 in the present disclosure in which A may be any one in Chemical Formula 2 in the present disclosure. | 07-26-2012 |
20120282446 | CARBON MATERIALS, PRODUCT COMPRISING THE SAME, AND METHOD FOR PREPARING THE SAME - Provided is a preparation method for carbon materials, carbon materials prepared from the same, and a product including the carbon materials, in which the preparation method including forming a polymer layer containing a polymer, stabilizing the polymer layer to form a cyclized aromatic structure of carbon atoms in the polymer, and carbonizing the stabilized polymer layer. | 11-08-2012 |
20120302683 | METHOD OF PREPARING REDUCED GRAPHENE OXIDE AND REDUCED GRAPHENE OXIDE-POLYMER COMPOSITES - Methods of preparing reduced graphene oxide and reduced graphene oxide-polymer composites. The methods include covalently binding a halogen-substituted aromatic compounds to a graphene oxide and heat treating the graphene oxide with the halogen-substituted aromatic compounds covalently bound thereto at a low temperature, for example, 450° C. or less. By using the methods, reduced graphene oxide and reduced graphene oxide-polymer composites that have high electrical conductivities (e.g., 30,000 S/m or more) may be obtained. | 11-29-2012 |
20130056063 | PREPARATION METHOD OF OXIDE ELECTRODE FOR SENSITIZED SOLAR CELL AND SENSITIZED SOLAR CELL USING THE SAME - The present invention relates to a method of manufacturing an oxide electrode for a dye-sensitized solar cell including metal oxide nanoparticles by using a miller, and a dye-sensitized solar cell manufactured by using the same. More particularly, the present invention provides a method of manufacturing an oxide electrode for a dye-sensitized solar cell. The method includes (a) mixing metal oxide nanoparticles, a binder resin, and a solvent to prepare a metal oxide paste, (b) coating the metal oxide paste to a miller and pulverizing the metal oxide nanoparticles to prepare a paste including the metal oxide nanoparticles uniformly dispersed therein, and (c) coating the paste including the metal oxide nanoparticles dispersed therein on a conductive transparent substrate, performing a heat treatment of the resulting substrate, and adsorbing a dye thereon to manufacture the conductive electrode. | 03-07-2013 |