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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。
    • 2. 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。
    • 7. 发明授权
    • Method for manufacturing solar cell electrode
    • 制造太阳能电池电极的方法
    • US08691326B2
    • 2014-04-08
    • US13432371
    • 2012-03-28
    • Hiroki KojoMasakatsu KurokiHisashi Matsuno
    • Hiroki KojoMasakatsu KurokiHisashi Matsuno
    • B05D5/12B05D3/06
    • H01L31/022425H01B1/22Y02E10/50
    • A method for manufacturing a solar cell electrode, comprising the steps of: (a) applying a conductive paste for bus electrode to a wafer in order to form a bus electrode pattern; (b) depositing onto the wafer a photocurable conductive paste for finger electrode from a discharge slot of a dispenser nozzle to thereby form an uncured finger electrode pattern on the wafer, wherein the nozzle moves parallel to the wafer; and (c) curing the uncured finger electrode pattern by exposing the uncured finger electrode pattern to UV light either after forming the uncured finger electrode pattern on the wafer in the step (b), or concurrent with the step (b).
    • 一种制造太阳能电池电极的方法,包括以下步骤:(a)将用于总线电极的导电膏施加到晶片以形成总线电极图案; (b)从分配器喷嘴的排出槽向晶片上沉积用于指状电极的可光固化的导电膏,从而在晶片上形成未固化的指状电极图案,其中喷嘴平行于晶片移动; 或者在步骤(b)中在晶片上形成未固化的指状电极图案之后,或者与步骤(b)同时,将未固化的手指电极图案暴露于UV光下,以及(c)固化未固化的手指电极图案。
    • 10. 发明授权
    • Method of manufacturing copper electrode
    • 铜电极的制造方法
    • US08647815B1
    • 2014-02-11
    • US13558912
    • 2012-07-26
    • Masakatsu KurokiTakeshi Kono
    • Masakatsu KurokiTakeshi Kono
    • G03F7/26
    • C23C18/1216
    • A method for manufacturing an electrode comprising the steps of: applying onto a substrate a conductive paste to form a conductive paste layer comprising; (i) 100 parts by weight of a copper powder coated with a metal oxide selected from the group consisting of silicon oxide (SiO2), zinc oxide (ZnO), aluminum oxide (Al2O3), titanium oxide (TiO2), magnesium oxide (MgO) and a mixture thereof; (ii) 5 to 30 parts by weight of a boron powder; and (iii) 0.1 to 10 parts by weight of a glass frit; dispersed in (iv) an organic vehicle; and firing the conductive paste in air.
    • 一种用于制造电极的方法,包括以下步骤:在基底上施加导电膏以形成导电浆料层,其包括: (i)100重量份涂覆有选自氧化硅(SiO 2),氧化锌(ZnO),氧化铝(Al 2 O 3),氧化钛(TiO 2),氧化镁(MgO) )及其混合物; (ii)5〜30重量份的硼粉末; 和(iii)0.1至10重量份的玻璃料; 分散在(iv)有机载体中; 并在空气中烧制导电膏。