Patent application number | Description | Published |
20080277630 | Metal Colloidal Particles, Metal Colloid and Use of Metal Colloid - With respect to the metal colloid of the present invention, metal colloidal particles capable of forming a metal colloid by dispersing in either or both of an aqueous dispersion medium and a nonaqueous dispersion medium in a predetermined proportion while mixing, comprise metal particles and a protective agent coordination-modified on the surface of the particles, the protective agent having a carbon skeleton containing either or both of sulfur and oxygen in the molecule, and having a structure of being coordination-modified on the surface of the metal particles using an atom or an atomic group of either or both of sulfur and oxygen as an anchor, wherein the protective agent has one, or two or more functional groups selected from the group consisting of alkoxysilyl group, silanol group and hydroxyalkyl group in a molecular structure. | 11-13-2008 |
20090250106 | COMPOSITION FOR MANUFACTURING ELECTRODE OF SOLAR CELL, METHOD OF MANUFACTURING SAME ELECTRODE, AND SOLAR CELL USING ELECTRODE OBTAINED BY SAME METHOD - A composition for manufacturing an electrode of a solar cell, comprising metal nanoparticles dispersed in a dispersive medium, wherein the metal nanoparticles contain silver nanoparticles of 75 weight % or more, the metal nanoparticles are chemically modified by a protective agent having a main chain of organic molecule comprising a carbon backbone of carbon number of 1 to 3, and the metal nanoparticles contains 70% or more in number-average of metal nanoparticles having a primary grain size within a range of 10 to 50 nm. | 10-08-2009 |
20100015507 | POROUS TITANIUM HAVING LOW CONTACT RESISTANCE - Porous titanium having a low contact resistance includes porous titanium body, Au, and a Ti oxide layer ( | 01-21-2010 |
20100096002 | COMPOSITION FOR ELECTRODE FORMATION AND METHOD FOR FORMING ELECTRODE BY USING THE COMPOSITION - A composition for electrode formation containing metal nanoparticles dispersed in a dispersion medium, wherein the composition also comprises one or more organic polymers selected from the group consisting of polyvinylpyrrolidones, polyvinylpyrrolidone copolymers, polyvinyl alcohols, and cellulose ethers. | 04-22-2010 |
20100101637 | DISPERSION OF METAL NANOPARTICLES, METHOD FOR PRODUCING THE SAME, AND METHOD FOR SYNTHESIZING METAL NANOPARTICLES - The present invention aims to provide a method for producing a dispersion of metal nanoparticles which enables to control the shape and the particle diameter over a wide range, a dispersion of metal nanoparticles having superior dispersion stability, and a method for producing the same. In addition, the present invention further aims to provide a dispersion of metal nanoparticles which has a volume resistivity of 2×10 | 04-29-2010 |
20100126582 | CONDUCTIVE REFLECTIVE FILM AND PRODUCTION METHOD THEREOF - A conductive reflective film which is formed by calcining a substrate on which a composition containing metal nanoparticles is coated, the conductive reflective film including pores which appear on the film contact surface in the substrate side having an average diameter of 100 nm or less, an average depth of 100 nm or less in terms of position of the pores, and a number density of the pores of 30 pores/μm | 05-27-2010 |
20100218822 | COMPPSITE FILM FOR SUPERSTRATE SOLAR CELL, METHOD FOR PRODUCING THE COMPOSITE FILM FOR SUPERSTRATE SOLAR CELL, COMPOSITE FILM FOR SUBSTRATE SOLAR CELL, AND METHOD FOR PORDUCING THE COMPOSITE FILM FOR SUBSTRATE SOLAR CELL - A composite film for a superstrate solar cell or a substrate solar cell has a transparent conductive film and a conductive reflective film, wherein the transparent conductive film is formed by using a wet coating method to apply a transparent conductive film composition or dispersion containing microparticles of a conductive oxide, the conductive reflective film is formed by using a wet coating method to apply a conductive reflective film composition containing metal nanoparticles, the average diameter of holes occurring at the contact surface of the conductive reflective film on either the side of the photovoltaic layer or the side of the transparent conductive film is not more than 100 nm, the average depth at which the holes are positioned is not more than 100 nm, and the number density of the holes is not more than 30 holes/μm | 09-02-2010 |
20120308720 | CONDUCTIVE REFLECTIVE FILM AND PRODUCTION METHOD THEREOF - A conductive reflective film which is formed by calcining a substrate on which a composition containing metal nanoparticles is coated, the conductive reflective film including pores which appear on the film contact surface in the substrate side having an average diameter of 100 nm or less, an average depth of 100 nm or less in terms of position of the pores, and a number density of the pores of 30 pores/μm | 12-06-2012 |
20140090699 | TRANSPARENT ELECTROCONDUCTIVE FILM FOR SOLAR CELL, COMPOSITION FOR TRANSPARENT ELECTROCONDUCTIVE FILM AND MULTI-JUNCTION SOLAR CELL - An object of the present invention is to provide a transparent electroconductive film, which in addition to satisfying each of the requirements of favorable phototransmittance, high electrical conductivity, low refractive index and the like required when using in a multi-junction solar cell, enables running costs to be reduced since the transparent electroconductive film is produced without using a vacuum deposition method. The transparent electroconductive film for a solar cell of the present invention is provided between photoelectric conversion layers of a multi-junction solar cell, a coated film of fine particles formed by coating using a wet coating method is baked, the electroconductive component in the base material that composes the electroconductive film is present within the range of 5 to 95% by weight, and the thickness of the electroconductive film is within the range of 5 to 200 nm. | 04-03-2014 |