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    • 1. 发明申请
    • BATTERIES FOR EFFICIENT ENERGY EXTRACTION FROM A SALINITY DIFFERENCE
    • 电池从有效的能量提取从海洋差异
    • WO2012061429A2
    • 2012-05-10
    • PCT/US2011/058839
    • 2011-11-01
    • LA MANTIA, FabioPASTA, MauroDESHAZER, Heather DawnCUI, Yi
    • LA MANTIA, FabioPASTA, MauroDESHAZER, Heather DawnCUI, Yi
    • H01M6/32H01G9/00
    • H01M14/00H01M6/34Y02E60/12
    • An electrochemical system includes: (1) a battery including an anode and a cathode; (2) a first source of a first electrolyte having a first concentration of ions; (3) a second source of a second electrolyte having a second concentration of the ions, wherein the second concentration is greater than the first concentration; and (4) a fluid conveyance mechanism connected between the battery and each of the first source and the second source. During charging of the battery, the anode and the cathode are at least partially immersed in the first electrolyte, and, during discharging of the battery, the anode and the cathode are at least partially immersed in the second electrolyte. The fluid conveyance mechanism exchanges the first electrolyte with the second electrolyte between charging and discharging of the battery, and exchanges the second electrolyte with the first electrolyte between discharging and charging of the battery.
    • 电化学系统包括:(1)包括阳极和阴极的电池; (2)具有第一离子浓度的第一电解质的第一源; (3)具有第二浓度离子的第二电解质的第二源,其中第二浓度大于第一浓度; 和(4)连接在电池与第一源和第二源中的每一个之间的流体输送机构。 在电池充电期间,阳极和阴极至少部分地浸没在第一电解质中,并且在电池放电期间,阳极和阴极至少部分地浸没在第二电解质中。 流体输送机构在电池的充放电之间与第二电解质交换第一电解质,并且在电池的放电和充电之间与第一电解质交换第二电解质。
    • 4. 发明申请
    • BATTERIES FOR EFFICIENT ENERGY EXTRACTION FROM A SALINITY DIFFERENCE
    • 从盐度差异中有效提取能量的电池
    • WO2012061429A3
    • 2012-07-12
    • PCT/US2011058839
    • 2011-11-01
    • LA MANTIA FABIOPASTA MAURODESHAZER HEATHER DAWNCUI YI
    • LA MANTIA FABIOPASTA MAURODESHAZER HEATHER DAWNCUI YI
    • H01M6/32H01G9/00
    • H01M14/00H01M6/34Y02E60/12
    • An electrochemical system includes: (1) a battery including an anode and a cathode; (2) a first source of a first electrolyte having a first concentration of ions; (3) a second source of a second electrolyte having a second concentration of the ions, wherein the second concentration is greater than the first concentration; and (4) a fluid conveyance mechanism connected between the battery and each of the first source and the second source. During charging of the battery, the anode and the cathode are at least partially immersed in the first electrolyte, and, during discharging of the battery, the anode and the cathode are at least partially immersed in the second electrolyte. The fluid conveyance mechanism exchanges the first electrolyte with the second electrolyte between charging and discharging of the battery, and exchanges the second electrolyte with the first electrolyte between discharging and charging of the battery.
    • 电化学系统包括:(1)包括阳极和阴极的电池; (2)具有第一离子浓度的第一电解质的第一源; (3)具有第二浓度的离子的第二电解质的第二源,其中第二浓度大于第一浓度; 和(4)连接在电池与第一源和第二源中的每一个之间的流体输送机构。 在电池充电期间,阳极和阴极至少部分浸入第一电解质中,并且在电池放电期间,阳极和阴极至少部分地浸入第二电解质中。 流体输送机构在电池的充电和放电之间交换第一电解质与第二电解质,并且在电池的放电和充电之间交换第二电解质与第一电解质。
    • 8. 发明申请
    • SPATIALLY SELECTIVE LASER ANNEALING APPLICATIONS IN HIGH-EFFICIENCY SOLAR CELLS
    • 高效选择性激光退火应用在高效太阳能电池
    • WO2012162276A2
    • 2012-11-29
    • PCT/US2012038907
    • 2012-05-21
    • SOLEXEL INCMOSLEHI MEHRDAD MRANA VIRENDRA VANBALAGAN PRANAVDESHAZER HEATHERSARASWAT VIVEKKAPUR PAWAN
    • MOSLEHI MEHRDAD MRANA VIRENDRA VANBALAGAN PRANAVDESHAZER HEATHERSARASWAT VIVEKKAPUR PAWAN
    • H01L31/042H01L31/18
    • H01L31/1864Y02E10/50Y02P70/521
    • Various laser processing schemes are disclosed for producing various types of hetero-junction emitter and homo-junction emitter solar cells. The methods include base and emitter contact opening, selective doping, metal ablation, annealing to improve passivation, and selective emitter doping via laser heating of aluminum. Also, laser processing schemes are disclosed that are suitable for selective amorphous silicon ablation and selective doping for hetero-junction solar cells. Laser ablation techniques are disclosed that leave the underlying silicon substantially undamaged. These laser processing techniques may be applied to semiconductor substrates, including crystalline silicon substrates, and further including crystalline silicon substrates which are manufactured either through wire saw wafering methods or via epitaxial deposition processes, or other cleavage techniques such as ion implantation and heating, that are either planar or textured/three-dimensional. These techniques are highly suited to thin crystalline semiconductor, including thin crystalline silicon films.
    • 公开了用于生产各种类型的异质结发射体和均联发射体太阳能电池的各种激光处理方案。 这些方法包括基极和发射极接触开口,选择性掺杂,金属烧蚀,退火以改善钝化,以及通过激光加热铝的选择性发射极掺杂。 此外,公开了适用于异质结太阳能电池的选择性非晶硅消融和选择性掺杂的激光处理方案。 公开了激光烧蚀技术,使基底硅基本上没有损坏。 这些激光处理技术可以应用于包括晶体硅衬底的半导体衬底,并且还包括通过线锯晶片化方法或通过外延沉积工艺或其它切割技术(例如离子注入和加热)制造的晶体硅衬底,其是 平面或纹理/三维。 这些技术非常适用于薄晶体半导体,包括薄晶体硅薄膜。