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    • 1. 发明授权
    • Hybrid electrolyte, method for manufacturing the same, and method for manufacturing electrochemical element using the same
    • 混合电解质及其制造方法以及使用该混合电解质的电化学元件的制造方法
    • US06299653B1
    • 2001-10-09
    • US09202480
    • 1998-12-14
    • Nobuto HoshiMasakatsu KurokiTakashi Minakata
    • Nobuto HoshiMasakatsu KurokiTakashi Minakata
    • H01M600
    • H01M10/052H01M2/1673H01M10/05H01M10/0565H01M2300/0085Y10T29/49108Y10T29/49112Y10T29/49115
    • Disclosed is a hybrid electrolyte comprising a shaped porous polymer structure comprising a polymer matrix and a plurality of cells dispersed in the polymer matrix, the polymer matrix containing a crosslinked polymer segment and having a gel content in the range of from 20 to 75%, wherein the shaped porous polymer structure is impregnated and swelled with an electrolytic liquid. A method for producing the hybrid electrolyte and a method for producing an electrochemical device comprising the hybrid electrolyte are also disclosed. The hybrid electrolyte of the present invention has a high ionic conductivity, an excellent stability under high temperature conditions and an excellent adherability to an electrode. Further, by the method of the present invention, the hybrid electrolyte having the above-mentioned excellent properties and an electrochemical device comprising such a hybrid electrolyte can be surely and effectively produced.
    • 公开了一种混合电解质,其包含成型的多孔聚合物结构,其包含聚合物基质和分散在聚合物基质中的多个细胞,所述聚合物基质含有交联的聚合物链段并且具有20至75%的凝胶含量,其中 成型的多孔聚合物结构用电解液浸渍和膨胀。 还公开了一种混合电解质的制造方法和包含该混合电解质的电化学装置的制造方法。 本发明的混合电解质具有高的离子电导率,在高温条件下具有优异的稳定性和对电极的优良的粘附性。 此外,通过本发明的方法,可以可靠且有效地制造具有上述优异性能的混合电解质和包含这种混合电解质的电化学装置。
    • 3. 发明申请
    • Organic semicondutor element
    • 有机半导体元素
    • US20050258417A1
    • 2005-11-24
    • US10486276
    • 2002-08-07
    • Takashi Minakata
    • Takashi Minakata
    • C30B7/00H01L51/00H01L51/05H01L51/30H01L51/40H01L35/24
    • H01L51/0055C30B7/00C30B7/005C30B29/54H01L51/0003H01L51/0052H01L51/0545
    • The present invention relates to an organic semiconductor thin film suitably employed in electronics, photonics, bioelectronics, or the like, and a method for forming the same. The present invention further relates to a solution for an organic semiconductor used to form the organic semiconductor thin film and an organic semiconductor device using the organic semiconductor thin film. The transistor of the present invention is manufactured by forming sequentially a gate electrode (2), an insulator layer (3), a source electrode and drain electrode (4, 4) on a glass substrate (5), applying thereto a 0.05% (by mass) solution of pentacene in o-dichlorobenzene and drying the solution to form an organic semiconductor thin film (1). The present invention provides a transistor with superior electronic characteristics because the organic semiconductor thin film (1), which can be formed easily at low cost, is almost free of defects.
    • 本发明涉及适用于电子学,光子学,生物电子学等的有机半导体薄膜及其形成方法。 本发明还涉及用于形成有机半导体薄膜的有机半导体的解决方案和使用有机半导体薄膜的有机半导体器件。 本发明的晶体管通过在玻璃基板(5)上依次形成栅电极(2),绝缘体层(3),源电极和漏电极(4,4)来制造,向其施加0.05%( 的并五苯在邻二氯苯中的溶液并干燥以形成有机半导体薄膜(1)。 本发明提供了具有优异电子特性的晶体管,因为可以容易地以低成本形成的有机半导体薄膜(1)几乎没有缺陷。
    • 4. 发明授权
    • Hybrid polymeric electrolyte and non-aqueous electrochemical device comprising the same
    • 混合聚合物电解质和包含其的非水电化学装置
    • US06284412B1
    • 2001-09-04
    • US09029823
    • 1998-03-09
    • Takashi MinakataMasanori IkedaToshio ImautiMasakatsu Kuroki
    • Takashi MinakataMasanori IkedaToshio ImautiMasakatsu Kuroki
    • H01M1040
    • H01M10/0565H01B1/122H01M2/1653H01M4/13H01M4/139H01M4/621H01M4/622H01M6/22H01M10/052
    • Disclosed is a novel hybrid polymeric electrolyte formed of a closed-cell cellular polymer foam impregnated with a non-aqueous electrolytic liquid, which comprises a plurality of closed cells defined by cell walls constituting a continuous solid-phase matrix which is impregnated with the non-aqueous electrolytic liquid to form a continuous solid-phase domain, in which the plurality of closed cells are substantially filled with a non-aqueous electrolytic liquid to form a plurality of liquid phase domains which are dispersed in the above-mentioned continuous solid-phase domain. The hybrid polymeric electrolyte of the present invention has not only high ionic conductivity and high mechanical strength, but also has the ability to prevent the non-aqueous electrolytic liquid from leakage. The non-aqueous electrochemical device comprising the hybrid polymeric electrolyte of the present invention exhibits excellent electrochemical performance, and also retains electrolytic liquid well.
    • 公开了一种由浸渍有非水电解液体的闭孔多孔聚合物泡沫形成的新型复合高分子电解质,其包含多个由构成连续固相基质的细胞壁限定的闭孔, 水性电解液形成连续的固相结构域,其中多个闭孔基本上填充有非水电解液,以形成分散在上述连续固相结构域中的多个液相域 。 本发明的复合高分子电解质不仅具有高离子导电性和高机械强度,而且具有防止非水电解液泄漏的能力。 包含本发明的复合高分子电解质的非水电化学装置表现出优异的电化学性能,并且还能很好地保持电解液。
    • 5. 发明授权
    • Non-aqueous battery of a thin configuration
    • 非水电池配置薄型
    • US06461757B1
    • 2002-10-08
    • US09380843
    • 1999-09-10
    • Masa-aki SasayamaTakashi MinakataKouichi Yasukata
    • Masa-aki SasayamaTakashi MinakataKouichi Yasukata
    • H01M206
    • H01M2/06H01M2/0275H01M6/12H01M10/0525
    • A non-aqueous battery is provided in a pouchy casing comprising opposing sheets of at least three-layer laminates, each laminate comprising (1) an inner thermoplastic resin layer, (2) a middle metal foil layer, and (3) an outer electrically insulating material layer, wherein the pouchy casing has an elongated, hermetic adhesion area along a periphery of the pouchy casing, and the middle metal foil layer has a peripheral elongated region in the elongated, hermetic adhesion area of the pouchy casing, and at least a pair of terminals electrically connected to the cathode and anode of the battery extends through and protrudes from the terminal-withdrawal sites in the elongated, hermetic adhesion area toward the outside of the pouchy casing, and the battery has at least one of the following features: (i) the peripheral elongated region of the middle metal foil layer has cut-out portions around the terminal-withdrawal sites and (ii) the surface of the peripheral edge of the pouchy casing is provided with electric insulation at least at portions around the terminal-withdrawal sites.
    • 非水电池设置在袋状壳体中,包括至少三层层压体的相对片材,每个层叠体包括(1)内部热塑性树脂层,(2)中间金属箔层,和(3)外部电 绝缘材料层,其中所述袋状壳体沿着所述袋状壳体的周边具有细长的密封粘合区域,并且所述中间金属箔层在所述袋状壳体的细长密封粘合区域中具有周边细长区域,并且至少一个 电连接到电池的阴极和阳极的一对端子延伸穿过细长密封粘合区域中的端子排出位置并朝向袋状外壳的外部突出,并且电池具有以下特征中的至少一个: (i)中间金属箔层的周边细长区域具有围绕末端取出位置的切口部分,(ii)袋状外壳的周边边缘的表面是 至少在终端提取部位周围的部分设置电绝缘。
    • 7. 发明授权
    • Organic semiconductor element
    • 有机半导体元件
    • US07061010B2
    • 2006-06-13
    • US10486276
    • 2002-08-07
    • Takashi Minakata
    • Takashi Minakata
    • H01L35/24
    • H01L51/0055C30B7/00C30B7/005C30B29/54H01L51/0003H01L51/0052H01L51/0545
    • The present invention relates to an organic semiconductor thin film suitably employed in electronics, photonics, bioelectronics, or the like, and a method for forming the same. The present invention further relates to a solution for an organic semiconductor used to form the organic semiconductor thin film and an organic semiconductor device using the organic semiconductor thin film.The transistor of the present invention is manufactured by forming sequentially a gate electrode (2), an insulator layer (3), a source electrode and drain electrode (4, 4) on a glass substrate (5), applying thereto a 0.05% (by mass) solution of pentacene in o-dichlorobenzene and drying the solution to form an organic semiconductor thin film (1).The present invention provides a transistor with superior electronic characteristics because the organic semiconductor thin film (1), which can be formed easily at low cost, is almost free of defects.
    • 本发明涉及适用于电子学,光子学,生物电子学等的有机半导体薄膜及其形成方法。 本发明还涉及用于形成有机半导体薄膜的有机半导体的解决方案和使用有机半导体薄膜的有机半导体器件。 本发明的晶体管通过在玻璃基板(5)上依次形成栅电极(2),绝缘体层(3),源电极和漏电极(4,4)来制造,向其施加0.05%( 的并五苯在邻二氯苯中的溶液并干燥以形成有机半导体薄膜(1)。 本发明提供了具有优异电子特性的晶体管,因为可以容易地以低成本形成的有机半导体薄膜(1)几乎没有缺陷。