摘要:
A photoelectric conversion element including a dye-sensitized solar cell is provided. The photoelectric conversion element may include an electrode having a titanium oxide layer containing spindle-shaped particles of titanium oxide of anatase type. A process for manufacturing the photoelectric conversion device is also provided. The process may include steps of providing a transparent conductive layer, forming a titanium oxide layer containing particles of peroxo-modified titanium oxide of anatase type adjacent to the transparent conductive layer, and baking the titanium oxide layer. Forming the titanium oxide layer may include forming a porous titanium oxide layer and dipping the porous titanium oxide layer in a dispersion containing particles of peroxo-modified titanium oxide of anatase type to the porous titanium oxide layer. Alternatively, forming the titanium oxide layer may include applying a titanium oxide paste containing particles of peroxo-modified titanium oxide of anatase type to the transparent conductive layer.
摘要:
Provided are a counter electrode, which is excellent in electrolytic solution resistance and electrical conductivity, and which is capable of corresponding to an application process carried out by pattern printing during a manufacturing process, a photoelectric conversion element using the counter electrode, and a method for manufacturing the same. A dye-sensitized photoelectric conversion element has a structure in which an electrolyte layer is filled between a porous electrode to which a photosensitizing dye is adsorbed and a counter electrode. The counter electrode includes: a metal counter electrode; a conductive primer layer that contains conductive carbon, and at least one resin selected among a polyamide imide resin, a polyamide resin, and polyimide resin as a binder resin; and a catalyst layer containing conductive carbon and an inorganic binder. The metal counter electrode and the catalyst layer are formed to come into close contact with each other through the conductive primer layer.
摘要:
A method of manufacturing an organic EL display unit and an organic EL display unit capable of improving light emitting efficiency and life of blue are provided. A hole injection layer are formed on a lower electrode. For a red organic EL device and a green organic EL device, a hole transport layer, a red light emitting layer, and a green light emitting layer made of a polymer material are formed. A hole transport layer made of a low molecular material is formed on the hole injection layer of a blue organic EL device. A blue light emitting layer made of a low molecular material is formed on the red light emitting layer, the green light emitting layer, and the hole transport layer for the blue organic EL device. An electron transport layer, an electron injection layer, and an upper electrode are sequentially formed on the blue light emitting layer.
摘要:
An organic electroluminescence material composition including an organic electroluminescence material and a solvent, the organic electroluminescence material being a naphthacene derivative, and the solvent being a solvent which is represented by the following formula (1).
摘要:
A battery in which a cathode and an anode are arranged so as to face each other an having a separator in between is provided. The separator is formed from a plurality of laminated microporous membranes and has a film thickness of 10x μm and a piercing strength of 150x gf or more, where 1≦x≦2. The air permeability of one layer among the plurality of microporous membranes is equal to or larger than 10% of the air permeability of the whole separator.
摘要:
A negative electrode for a nonaqueous electrolyte secondary cell, includes: a negative electrode active material layer containing a negative electrode active material, a polyvinylidene fluoride component including polyvinylidene fluoride and/or a derivative having polyvinylidene fluoride as a main chain, a styrene-butadiene component including a styrene-butadiene polymer and/or a derivative having a styrene-butadiene polymer as a main chain, a nonionic surfactant having an HLB of 10 to 15, and N-methylpyrrolidone; and a foil-shaped negative electrode current collector provided with the negative electrode active material layer on at least one principal surface of the collector.
摘要:
An organic electroluminescence material composition including a solvent represented by the following formula (1) and an anthracene derivative: wherein ring A is an aliphatic ring or an aromatic ring having 4 to 8 carbon atoms; R1 is a substituent on the ring A; and R2 and R3 are substituents connected to adjacent carbon atoms on the ring A.
摘要:
A lithium ion secondary battery is provided. The battery includes a positive electrode having at least a cathode active material and a binder, a negative electrode, an electrolyte, and a separator which are arranged between the positive electrode and the negative electrode, and in which an open circuit voltage per unit cell in a full charging state lies within (4.25V≦voltage≦6.00V). The cathode active material includes either a lithium-cobalt composite oxide expressed by a general formula: LiaCo1-xMexO2-b(Me denotes metal elements of at least one, two or more kinds selected from V, Cu, Zr, Zn, Mg, Al, and Fe; 0.9≦a≦1.1; 0≦x≦0.3; and −0.1≦b≦0.1) or a lithium-cobalt-nickel-manganese oxide expressed by a general formula: LiaNi1-x-y-zCoxMnyMezO2-b(0.9≦a≦1.1; 0
摘要翻译:提供锂离子二次电池。 电池包括具有至少正极活性物质和粘合剂,负极,电解质和隔膜的正极,它们设置在正极和负极之间,其中每单位电池的开路电压 完全充电状态位于(4.25V <=电压<= 6.00V)内。 阴极活性材料包括由以下通式表示的锂 - 钴复合氧化物:由下列通式表示的锂 - 钴复合氧化物:Li 1 O x 2-b(Me表示选自V,Cu,Zr,Zn,Mg,Al和Fe中的至少一种,两种以上的金属元素; 0.9 <= a <= 1.1; 0 <= x <= 0.3;和-0.1 <= b <= 0.1)或由以下通式表示的锂 - 钴 - 镍 - 锰氧化物:Li&lt; 1&lt; 1-xyz&lt; / SUB (0.9 <= a <= 1.1; 0 u> x <0.4; 0
摘要:
A battery capable of improving the energy density and improving the battery characteristics such as cycle characteristics and high temperature storage characteristics is provided. A cathode and an anode are oppositely arranged with a separator in between. The open circuit voltage in full charge is in the range from 4.25 V to 6.00 V. The separator has a base material layer and a surface layer. The surface layer opposed to the cathode is formed from at least one from the group consisting of polyvinylidene fluoride, polytetrafluoroethylene, polypropylene, and aramid.
摘要:
A heat-resistant insulating layer-provided separator includes a polyolefin layer and a heat-resistant insulating layer formed on one or both surfaces of the polyolefin layer and containing a heat-resistant resin and an oxidation-resistant ceramic particle. The heat-resistant insulating layer contains the oxidation-resistant ceramic particle in a proportion of from 60 to 90%.