摘要:
A solid electrolyte cell includes: a positive electrode side layer having a positive electrode active material layer; a negative electrode side layer; and a solid electrolyte layer formed between the positive electrode side layer and the negative electrode side layer, wherein the positive electrode active material layer contains a lithium phosphoric acid compound which is in an amorphous state and is represented by the following formula (1), LixCuyPO4 (1) where x indicates the compositional ratio of lithium, and y indicates the compositional ratio of copper, x and y being in the ranges of 1.0≦x≦5.0 and 1.0≦y≦4.0, respectively.
摘要翻译:固体电解质电池包括:具有正极活性物质层的正极侧层; 负极侧层; 以及形成在所述正极侧层和所述负极侧层之间的固体电解质层,其中所述正极活性物质层含有处于非晶状态并由下式(1)表示的磷酸锂化合物,LixCuyPO4 (1)其中x表示锂的组成比,y表示铜,x和y的组成比分别在1.0 @ x @ 5.0和1.0 @ y @ 4.0的范围内。
摘要:
A high-performance and inexpensive thin film solid state lithium ion secondary battery that is able to be charged and discharged in the air and is able to be manufactured stably at a favorable yield, and a method of manufacturing the same are provided. The thin film solid state lithium ion secondary battery has an electric insulating substrate 10 formed from an organic resin, an inorganic insulating film provided on the substrate face, a cathode-side current collector film 30, a cathode active material film 40, a solid electrolyte film 50, an anode-side current collector protective film 68, and an anode-side current collector film 70. In the thin film solid state lithium ion secondary battery, the cathode-side current collector film and/or the anode-side current collector film is formed on the inorganic insulating film face. The anode-side current collector protective film is formed from a conductive oxide including at least any one of an oxide of Sn, In, and Zn, and holds the total amount of lithium associated with charge and discharge roughly constant. The thickness of the anode-side current collector protective film is 2 nm or more and 22 nm or less. The thickness of the inorganic insulating film is 5 nm or more and 500 nm or less. The inorganic insulating film contains at least any one of an oxide, a nitride, and a sulfide containing one of Si, Al, Cr, Zr, Ta, Ti, Mn, Mg, and Zn.
摘要:
A solid electrolyte cell includes: a positive electrode side layer having a positive electrode active material layer; a negative electrode side layer; and a solid electrolyte layer formed between the positive electrode side layer and the negative electrode side layer, wherein the positive electrode active material layer contains a lithium phosphoric acid compound which is in an amorphous state and is represented by the following formula (1), LixCuyPO4 (1) where x indicates the compositional ratio of lithium, and y indicates the compositional ratio of copper, x and y being in the ranges of 1.0≦x≦5.0 and 1.0≦y≦4.0, respectively.
摘要:
An optical recording medium is an optical recording medium having an inorganic recording film and has a transparent conductive film on the inorganic recording film. The inorganic recording film has a first recording film containing titanium (Ti) and a second recording film containing an oxide of germanium (Ge). The transparent conductive film is provided on the side of the second recording film. The transparent conductive film contains an oxide of tin (Sn).
摘要:
The present invention relates to an optical recording medium having a plurality of recording layers having different uses. The optical recording medium includes a first light transmitting layer (32); a layer (31) composed of an organic dye for recording and reading data by an optical beam of a first wavelength incident through the first light transmitting layer (32) and transmitting an optical beam of a second wavelength incident through the first light transmitting layer (32); a second light transmitting layer (34) for transmitting the optical beam of the second wavelength incident through the layer (31) composed of the organic dye; and a reflecting layer (331) for reflecting the optical beam of the second wavelength incident through the second light transmitting layer (34).
摘要:
A write once optical recording medium includes a substrate on which an oxide film serving as an inorganic recording film is formed, the oxide film being made of a recording material of an oxide Ge1Ox (x is an atomic number ratio) of germanium (Ge) and a composition of Ge1Ox of the oxide film being specified so as to satisfy 1.0
摘要翻译:一次写入光记录介质包括其上形成用作无机记录膜的氧化膜的基板,氧化膜由氧化物Ge 1 O x O x的记录材料制成, 氧化物膜的锗(Ge)的组成和/或氧化物膜的组成(x是原子序数比)被规定为满足1.0 < x <2.0。
摘要:
An optimum performance is achieved relative to write-once type optical recording mediums on which information is recorded by means of a blue-violet semiconductor laser. An optical disc recording/reproduction apparatus 10 comprises an LD control section 17 adapted to control the irradiation power of a laser when writing data. If the cycle of the channel clock is T, when forming a recording mark having a length of n×T (n being an integer not smaller than 2), a pulse beam is irradiated onto the write-once type information recording medium for n/2 times (decimals, if any, being to be rounded down). When forming a recording mark having a length of not smaller than 6T and even number times of T, a pulse beam is irradiated for n/2 times with all the intermediate pulse beams synchronized with the phase of the channel clock except the leading pulse beam and the tail end pulse beam. When forming a recording mark having a length of not smaller than 6T and odd number times of T, a pulse beam is irradiated with all the intermediate pulse beams delayed from the phase of the channel clock by T/2 except the leading pulse beam and the tail end pulse beam.
摘要:
To provide a high density optical recording medium, capable of realizing the complete compatibility with a phase change recording medium with respect to an optical pickup or a drive device, using a short wavelength light for achieving a high recording density. The present invention provides an optical recording medium configuration for directly reading out the change of the reflectance without using the phase modulation method. An optical recording medium according to the present invention is an optical recording medium having a recording film of a single layer or multiple layer structure on a substrate (1), wherein the recording film is mainly made of an organic substance material layer (2) for absorbing and decomposing a laser beam, and generating the refractive index change as well as the reflectance of the optical recording medium with respect to a reproduction laser beam of a 380 nm to 450 nm wavelength is 15% to 25% before the decomposition, and 0% to 10% after the decomposition.
摘要:
In one embodiment, a thin film solid state lithium ion secondary battery is able to be charged and discharged in the air and manufactured stably at a favorable yield. The thin film solid state lithium ion secondary battery has an electric insulating substrate formed from an organic resin, an inorganic insulating film provided on the substrate face, a cathode-side current collector film, a cathode active material film, a solid electrolyte film, an anode potential formation layer, and an anode-side current collector film. The cathode-side current collector film and/or the anode-side current collector film is formed on the inorganic insulating film face. The anode potential formation layer is a layer formed from the same material as that of the cathode active material film or a material different from that of the cathode active material film and is a layer provided for forming anode potential at the time of discharge.
摘要:
The present invention provides a solid-state electrolyte battery using a cathode activating substance which functions as such in an amorphous state and has a high ionic conductivity and provides a cathode activating substance used for the same. This solid-state electrolyte battery includes a laminated body. In the laminated body, a cathode-side current collector film, cathode activating substance film, solid-state electrolyte film, anode potential formation layer and anode-side current collector film are stacked above a substrate in this order. The cathode activating substance film is made of LixMyPO4−zNz, i.e., a lithium complex oxide in an amorphous state.