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    • 4. 发明专利
    • Solar battery
    • 太阳能电池
    • JP2014192257A
    • 2014-10-06
    • JP2013064969
    • 2013-03-26
    • Toshiba Corp株式会社東芝
    • YAMAMOTO KAZUENAKAGAWA NAOYUKISHIBAZAKI SOICHIROHIRAGA HIROKIYAMAZAKI MUTSUKISAKURADA SHINYAINABA MICHIHIKO
    • H01L31/06
    • H01L31/078H01L31/068H01L31/0749H01L31/076Y02E10/541Y02E10/547
    • PROBLEM TO BE SOLVED: To provide a solar battery of tandem type in which both high efficiency and low cost are realized.SOLUTION: A solar battery includes a first solar battery cell which contains a Si layer as a light absorbing layer, and a second solar battery cell which contains group I-III-VIcompound layer or group I-II-IV-VIcompound layer as a light absorbing layer, laminated each other. Between the first and second solar battery cells, there are provided an n+ type Si layer and an intermediate layer which is at least one kind selected from among p+ type Si layer, metal compound layer, and graphene layer (where, metal compound layer is represented by MX, M is an element of at least one kind selected from among Nb, Mo, Pd, Ta, W and Pt, and X is an element of at least one kind selected from among S, Se, and Te).
    • 要解决的问题:提供实现高效率和低成本的串联型太阳能电池。解决方案:太阳能电池包括第一太阳能电池单元,其包含Si层作为光吸收层,第二太阳能电池 含有I-III-VI族化合物组的I-II-IV-VI族化合物层或作为光吸收层的I-II-IV-VI族化合物层的电池。 在第一和第二太阳能电池单元之间,提供n +型Si层和中间层,其为从p +型Si层,金属化合物层和石墨烯层(其中金属化合物层被表示为)中的至少一种 通过MX,M是选自Nb,Mo,Pd,Ta,W和Pt中的至少一种的元素,X是选自S,Se和Te中的至少一种的元素)。
    • 6. 发明专利
    • Light emitting element
    • 发光元件
    • JP2009054873A
    • 2009-03-12
    • JP2007221545
    • 2007-08-28
    • Toshiba Corp株式会社東芝
    • YAMAMOTO KAZUESHIMIZU TATSUO
    • H01S5/34H01L33/16H01L33/34
    • H01L33/343
    • PROBLEM TO BE SOLVED: To provide a practical light emitting element using an indirect semiconductor which is inherently nonluminous. SOLUTION: The light emitting element includes at least any of S, Se, Cu and Ag, and is equipped with an active layer composed of a mother body semiconductor device having a tetrahedral bond structure, an n electrode and a p electrode which turn on a current to the active layer, and has an n layer provided between the active layer and the n electrode contacting the active layer, and a p layer provided between the active layer and the p electrode contacting the active layer, wherein the n layer, the active layer, and the p layer are arranged to be in-plane, the thickness of the active layer is 5 nm or less. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供使用本来是非发光的间接半导体的实用发光元件。 解决方案:发光元件包括S,Se,Cu和Ag中的至少一种,并且配备有由具有四面体结合结构的母体半导体器件,n电极和ap电极构成的有源层 并且在有源层和与活性层接触的n电极之间具有n层,以及设置在与活性层接触的有源层和p电极之间的p层,其中n层, 有源层和p层布置成面内,有源层的厚度为5nm以下。 版权所有(C)2009,JPO&INPIT
    • 7. 发明专利
    • Optical device
    • 光学装置
    • JP2008283219A
    • 2008-11-20
    • JP2008208973
    • 2008-08-14
    • Toshiba Corp株式会社東芝
    • YAMAMOTO KAZUESHIMIZU TATSUO
    • H01L31/0248C23C16/28C30B29/08
    • PROBLEM TO BE SOLVED: To solve the problem that there has not been practical application of long-wavelength of optical absorption or optical absorption in a long-wave length range when germanium is used for an optical device on the long-wavelength range to be mounted on an optical/electric large-scale integration (LSI) by using a semiconductor process. SOLUTION: The optical device includes a photoelectric conversion layer using a tetrahedrally-bonded semiconductor containing an atom of germanium as a major ingredient, an n-type dopant D or a p-type dopant A substituted for the atom of germanium at a lattice point site of the tetrahedrally-bonded semiconductor constituting the photoelectric conversion layer and a different kind atom Z inserted into an interstitial site closest to the dopant and the different kind atom Z has electron arrangement of closed shell structure by charge compensation with the dopant. COPYRIGHT: (C)2009,JPO&INPIT
    • 解决的问题为了解决在长波长范围内的光学元件使用锗时,在长波长范围内没有实际应用长波长的光吸收或光吸收的问题 通过使用半导体工艺安装在光/电大规模集成(LSI)上。 解决方案:光学器件包括使用包含锗原子作为主要成分的四面体键合半导体的光电转换层,取代锗原子的n型掺杂剂D或p型掺杂剂A 构成光电转换层的四面体键合半导体的晶格点位置和插入到最接近掺杂剂的间隙位置的不同种类的原子Z,并且不同种类的原子Z具有通过与掺杂剂的电荷补偿的封闭壳结构的电子排列。 版权所有(C)2009,JPO&INPIT
    • 8. 发明专利
    • Optical device
    • 光学装置
    • JP2008091572A
    • 2008-04-17
    • JP2006270003
    • 2006-09-29
    • Toshiba Corp株式会社東芝
    • YAMAMOTO KAZUESHIMIZU TATSUO
    • H01L31/10
    • H01L31/036B82Y20/00H01L31/0264H01L31/035236
    • PROBLEM TO BE SOLVED: To put in practice germanium since the elongation of wavelength in absorption of germanium or the absorption of germanium in a long wavelength region is not put in practice when the same is used for long wavelength region optical device mounted on photoelectric mixed LSI (large scale integrated circuit) employing semiconductor process. SOLUTION: The optical device is a semiconductor which has germanium atom as its principal constituent and has a tetrahedron bonding while a substrate lattice constant is smaller than that of germanium and the substrate plane direction is ä111} plane wherein the optical device employs a photoelectric conversion layer whose semiconductor lattice is extended in the axial direction orthogonal to the substrate plane. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:由于锗的吸收波长的延长或锗在长波长区域的吸收的延长,实际上并不实际使用锗,因为长时间安装在长波长区域的光学器件上使用锗 采用半导体工艺的光电混合LSI(大规模集成电路)。 解决方案:光学器件是具有锗原子作为其主要成分并具有四面体键合的半导体,而衬底晶格常数小于锗的晶格常数,并且衬底平面方向为ä111}平面,其中光学器件采用 半导体晶格在与衬底平面正交的<111>轴向延伸的光电转换层。 版权所有(C)2008,JPO&INPIT
    • 9. 发明专利
    • Field emission type electron source
    • 场发射型电子源
    • JP2005209396A
    • 2005-08-04
    • JP2004012043
    • 2004-01-20
    • Toshiba Corp株式会社東芝
    • NAGASAWA TSURUMISATO TOSHIEYAMAMOTO KAZUEMIZUSHIMA KOICHI
    • H01J9/02H01J1/312H01J29/04H01J31/12
    • PROBLEM TO BE SOLVED: To provide a field emission type electron source with large area, capable of stably emitting electron with high efficiency at low cost. SOLUTION: The field emission type electron source comprises a lower electrode, a multiple tunnel conductive layer including conductive fine particles and inter-particle insulation bodies intercalated between the conductive fine particles, and a surface electrode formed on the multiple tunnel conductive layer, and emits electron by the voltage impressed between the surface electrode as a positive electrode and the lower electrode. The inter-particle insulation body contains a cross-linked polymer having borazine skeleton bonded with the conductive fine particle. COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种具有大面积的场发射型电子源,能够以低成本高效地稳定地发射电子。 解决方案:场致发射型电子源包括下电极,包括导电细颗粒的多导体导电层和插入导电细颗粒之间的颗粒间绝缘体以及形成在多导体导电层上的表面电极, 并通过施加在作为正极的表面电极和下电极之间的电压发射电子。 颗粒间绝缘体含有与导电性微粒结合的具有环硼烷骨架的交联聚合物。 版权所有(C)2005,JPO&NCIPI