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1.发明申请TIN AND TIN-ZINC PLATED SUBSTRATES TO IMPROVE NI-ZN CELL PERFORMANCE 有权TIN和TIN-ZINC镀层基体,以提高NI-ZN电池性能公开(公告)号:US20110168565A1
公开(公告)日:2011-07-14
申请号:US13069879
申请日:2011-03-23
申请人: Feng Feng , Jeffrey Phillips , Sam Mohanta , Jeff Barton , Zeiad M. Muntasser
发明人: Feng Feng , Jeffrey Phillips , Sam Mohanta , Jeff Barton , Zeiad M. Muntasser
IPC分类号: C23C28/00
CPC分类号: H01M4/661 , C25D3/30 , C25D3/60 , C25D5/34 , C25D5/48 , C25D5/50 , C25D7/0614 , H01M4/244 , H01M4/26 , H01M4/32 , H01M4/667 , H01M10/24 , H01M10/30
摘要: An improved Ni—Zn cell with a negative electrode substrate plated with tin or tin and zinc during manufacturing has a reduced gassing rate. The copper or brass substrate is electrolytic cleaned, activated, electroplated with a matte surface to a defined thickness range, pasted with zinc oxide electrochemically active material, and baked. The defined plating thickness range of 40-80 μIn maximizes formation of an intermetallic compound Cu3Sn that helps to suppress the copper diffusion from under plating layer to the surface and eliminates formation of an intermetallic compound Cu6Sn5 during baking to provide adequate corrosion resistance during battery operation.
摘要翻译: 在制造期间镀有锡或锡和锌的负极基板的改进的Ni-Zn电池具有降低的放气率。 将铜或黄铜衬底电解清洗,活化,用无光泽表面电镀至规定的厚度范围,用氧化锌电化学活性材料粘贴并烘烤。 限定的电镀厚度范围为40-80μIn,使金属间化合物Cu3Sn的形成最大化,有助于抑制铜从电镀层扩散到表面,并消除了在烘烤过程中形成金属间化合物Cu6Sn5,以在电池工作期间提供足够的耐腐蚀性。
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2.发明申请TIN AND TIN-ZINC PLATED SUBSTRATES TO IMPROVE NI-ZN CELL PERFORMANCE 有权TIN和TIN-ZINC镀层基体,以提高NI-ZN电池性能公开(公告)号:US20120205248A1
公开(公告)日:2012-08-16
申请号:US13452629
申请日:2012-04-20
申请人: Feng Feng , Jeffrey Phillips , Sam Mohanta , Jeff Barton , Zeiad M. Muntasser
发明人: Feng Feng , Jeffrey Phillips , Sam Mohanta , Jeff Barton , Zeiad M. Muntasser
CPC分类号: H01M4/661 , C25D3/30 , C25D3/60 , C25D5/34 , C25D5/48 , C25D5/50 , C25D7/0614 , H01M4/244 , H01M4/26 , H01M4/32 , H01M4/667 , H01M10/24 , H01M10/30
摘要: An improved Ni—Zn cell with a negative electrode substrate plated with tin or tin and zinc during manufacturing has a reduced gassing rate. The copper or brass substrate is electrolytic cleaned, activated, electroplated with a matte surface to a defined thickness range, pasted with zinc oxide electrochemically active material, and baked. The defined plating thickness range of 40-80 μIn maximizes formation of an intermetallic compound Cu3Sn that helps to suppress the copper diffusion from under plating layer to the surface and eliminates formation of an intermetallic compound Cu6Sn5 during baking to provide adequate corrosion resistance during battery operation.
摘要翻译: 在制造期间镀有锡或锡和锌的负极基板的改进的Ni-Zn电池具有降低的放气率。 将铜或黄铜衬底电解清洗,活化,用无光泽表面电镀至规定的厚度范围,用氧化锌电化学活性材料粘贴并烘烤。 限定的电镀厚度范围为40-80μIn,使金属间化合物Cu3Sn的形成最大化,有助于抑制铜从电镀层扩散到表面,并消除了在烘烤过程中形成金属间化合物Cu6Sn5,以在电池工作期间提供足够的耐腐蚀性。
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3.发明申请TIN AND TIN-ZINC PLATED SUBSTRATES TO IMPROVE NI-ZN CELL PERFORMANCE 有权TIN和TIN-ZINC镀层基体,以提高NI-ZN电池性能公开(公告)号:US20090090636A1
公开(公告)日:2009-04-09
申请号:US11868337
申请日:2007-10-05
申请人: Feng Feng , Jeffrey Phillips , Sam Mohanta , Jeff Barton , Zeiad M. Muntasser
发明人: Feng Feng , Jeffrey Phillips , Sam Mohanta , Jeff Barton , Zeiad M. Muntasser
CPC分类号: H01M4/661 , C25D3/30 , C25D3/60 , C25D5/34 , C25D5/48 , C25D5/50 , C25D7/0614 , H01M4/244 , H01M4/26 , H01M4/32 , H01M4/667 , H01M10/24 , H01M10/30
摘要: An improved Ni—Zn cell with a negative electrode substrate plated with tin or tin and zinc during manufacturing has a reduced gassing rate. The copper or brass substrate is electrolytic cleaned, activated, electroplated with a matte surface to a defined thickness range, pasted with zinc oxide electrochemically active material, and baked. The defined plating thickness range of 40-80 μIn maximizes formation of an intermetallic compound Cu3Sn that helps to suppress the copper diffusion from under plating layer to the surface and eliminates formation of an intermetallic compound Cu6Sn5 during baking to provide adequate corrosion resistance during battery operation.
摘要翻译: 在制造期间镀有锡或锡和锌的负极基板的改进的Ni-Zn电池具有降低的放气率。 将铜或黄铜衬底电解清洗,活化,用无光泽表面电镀至规定的厚度范围,用氧化锌电化学活性材料粘贴并烘烤。 定义的电镀厚度范围为40-80微米,使金属间化合物Cu3Sn的形成最大化,有助于抑制铜从电镀层扩散到表面,并消除了在烘烤期间形成金属间化合物Cu6Sn5,以在电池工作期间提供足够的耐腐蚀性。
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4.发明授权公开(公告)号:US08182946B2
公开(公告)日:2012-05-22
申请号:US13069879
申请日:2011-03-23
CPC分类号: H01M4/661 , C25D3/30 , C25D3/60 , C25D5/34 , C25D5/48 , C25D5/50 , C25D7/0614 , H01M4/244 , H01M4/26 , H01M4/32 , H01M4/667 , H01M10/24 , H01M10/30
摘要: An improved Ni—Zn cell with a negative electrode substrate plated with tin or tin and zinc during manufacturing has a reduced gassing rate. The copper or brass substrate is electrolytic cleaned, activated, electroplated with a matte surface to a defined thickness range, pasted with zinc oxide electrochemically active material, and baked. The defined plating thickness range of 40-80 μIn maximizes formation of an intermetallic compound Cu3Sn that helps to suppress the copper diffusion from under plating layer to the surface and eliminates formation of an intermetallic compound Cu6Sn5 during baking to provide adequate corrosion resistance during battery operation.
摘要翻译: 在制造期间镀有锡或锡和锌的负极基板的改进的Ni-Zn电池具有降低的放气率。 将铜或黄铜衬底电解清洗,活化,用无光泽表面电镀至规定的厚度范围,用氧化锌电化学活性材料粘贴并烘烤。 限定的电镀厚度范围为40-80μIn,使金属间化合物Cu3Sn的形成最大化,有助于抑制铜从电镀层扩散到表面,并消除了在烘烤过程中形成金属间化合物Cu6Sn5,以在电池工作期间提供足够的耐腐蚀性。
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5.发明授权公开(公告)号:US07931988B2
公开(公告)日:2011-04-26
申请号:US11868337
申请日:2007-10-05
CPC分类号: H01M4/661 , C25D3/30 , C25D3/60 , C25D5/34 , C25D5/48 , C25D5/50 , C25D7/0614 , H01M4/244 , H01M4/26 , H01M4/32 , H01M4/667 , H01M10/24 , H01M10/30
摘要: An improved Ni—Zn cell with a negative electrode substrate plated with tin or tin and zinc during manufacturing has a reduced gassing rate. The copper or brass substrate is electrolytic cleaned, activated, electroplated with a matte surface to a defined thickness range, pasted with zinc oxide electrochemically active material, and baked. The defined plating thickness range of 40-80 μIn maximizes formation of an intermetallic compound Cu3Sn that helps to suppress the copper diffusion from under plating layer to the surface and eliminates formation of an intermetallic compound Cu6Sn5 during baking to provide adequate corrosion resistance during battery operation.
摘要翻译: 在制造期间镀有锡或锡和锌的负极基板的改进的Ni-Zn电池具有降低的放气率。 将铜或黄铜衬底电解清洗,活化,用无光泽表面电镀至规定的厚度范围,用氧化锌电化学活性材料粘贴并烘烤。 限定的电镀厚度范围为40-80μIn,使金属间化合物Cu3Sn的形成最大化,有助于抑制铜从电镀层扩散到表面,并消除了在烘烤过程中形成金属间化合物Cu6Sn5,以在电池工作期间提供足够的耐腐蚀性。
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6.发明授权Tin and tin-zinc plated substrates including Cu3Sn and Cu6Sn5 to improve Ni-Zn cell performance 有权锡和锡 - 锌电镀衬底,包括Cu3Sn和Cu6Sn5,以改善Ni-Zn电池性能公开(公告)号:US08372542B2
公开(公告)日:2013-02-12
申请号:US13452629
申请日:2012-04-20
CPC分类号: H01M4/661 , C25D3/30 , C25D3/60 , C25D5/34 , C25D5/48 , C25D5/50 , C25D7/0614 , H01M4/244 , H01M4/26 , H01M4/32 , H01M4/667 , H01M10/24 , H01M10/30
摘要: An improved Ni—Zn cell with a negative electrode substrate plated with tin or tin and zinc during manufacturing has a reduced gassing rate. The copper or brass substrate is electrolytic cleaned, activated, electroplated with a matte surface to a defined thickness range, pasted with zinc oxide electrochemically active material, and baked. The defined plating thickness range of 40-80 μIn maximizes formation of an intermetallic compound Cu3Sn that helps to suppress the copper diffusion from under plating layer to the surface and eliminates formation of an intermetallic compound Cu6Sn5 during baking to provide adequate corrosion resistance during battery operation.
摘要翻译: 在制造期间镀有锡或锡和锌的负极基板的改进的Ni-Zn电池具有降低的放气率。 将铜或黄铜衬底电解清洗,活化,用无光泽表面电镀至规定的厚度范围,用氧化锌电化学活性材料粘贴并烘烤。 限定的电镀厚度范围为40-80μIn,使金属间化合物Cu3Sn的形成最大化,有助于抑制铜从电镀层扩散到表面,并消除了在烘烤过程中形成金属间化合物Cu6Sn5,以在电池工作期间提供足够的耐腐蚀性。
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公开(公告)号:US08043748B2
公开(公告)日:2011-10-25
申请号:US12365658
申请日:2009-02-04
CPC分类号: H01M4/26 , C01G51/04 , C01G53/04 , C01P2004/84 , H01M4/32 , H01M4/362 , H01M4/52 , H01M4/624 , H01M10/30
摘要: Active material for a positive electrode of a rechargeable alkaline electrochemical cell is made with nickel hydroxide particles or cobalt-coated nickel hydroxide particles treated with strongly oxidizing reagents such as alkali metal persulfate in alkaline solution. The active material also may be made with cobalt-coated nickel hydroxide particles having a high percentage of cobalt(III) on a surface or an average cobalt oxidation state of about 3 measured across the particles. The treated nickel hydroxide or cobalt-coated nickel hydroxide decreases the cobalt solubility in the alkaline electrolyte and increases the high-rate charge and discharge capability. The lower cobalt solubility decreases cobalt migration that can increase self discharge and lead to premature failure.
摘要翻译: 可充电碱性电化学电池的正极的活性材料由氢氧化镍颗粒或用强氧化剂如碱金属过硫酸盐在碱性溶液中处理的钴包覆的氢氧化镍颗粒制成。 活性材料也可以由在表面上具有高百分比的钴(III)的钴涂覆的氢氧化镍颗粒或在整个颗粒上测量的约3的平均钴氧化态约3制成。 经处理的氢氧化镍或钴包覆的氢氧化镍降低了在碱性电解液中的钴溶解度,并提高了高速率的充放电能力。 较低的钴溶解度降低了钴迁移,可以增加自放电并导致过早的失效。
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8.发明申请公开(公告)号:US20090202904A1
公开(公告)日:2009-08-13
申请号:US12365658
申请日:2009-02-04
CPC分类号: H01M4/26 , C01G51/04 , C01G53/04 , C01P2004/84 , H01M4/32 , H01M4/362 , H01M4/52 , H01M4/624 , H01M10/30
摘要: Active material for a positive electrode of a rechargeable alkaline electrochemical cell is made with nickel hydroxide particles or cobalt-coated nickel hydroxide particles treated with strongly oxidizing reagents such as alkali metal persulfate in alkaline solution. The active material also may be made with cobalt-coated nickel hydroxide particles having a high percentage of cobalt(III) on a surface or an average cobalt oxidation state of about 3 measured across the particles. The treated nickel hydroxide or cobalt-coated nickel hydroxide decreases the cobalt solubility in the alkaline electrolyte and increases the high-rate charge and discharge capability. The lower cobalt solubility decreases cobalt migration that can increase self discharge and lead to premature failure.
摘要翻译: 可充电碱性电化学电池的正极的活性材料由氢氧化镍颗粒或用强氧化剂如碱金属过硫酸盐在碱性溶液中处理的钴包覆的氢氧化镍颗粒制成。 活性材料也可以由在表面上具有高百分比的钴(III)的钴涂覆的氢氧化镍颗粒或在整个颗粒上测量的约3的平均钴氧化态约3制成。 经处理的氢氧化镍或钴包覆的氢氧化镍降低了在碱性电解液中的钴溶解度,并提高了高速率的充放电能力。 较低的钴溶解度降低了钴迁移,可以增加自放电并导致过早的失效。
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公开(公告)号:US08940430B2
公开(公告)日:2015-01-27
申请号:US12523529
申请日:2008-02-08
申请人: Jeffrey Phillips , Samaresh Mohanta , Zhen Gang Fan , Ru Jun Ma , Feng Feng , Lou Uzel , Chi Yau , Jason Zhao , Zeiad M. Muntasser
发明人: Jeffrey Phillips , Samaresh Mohanta , Zhen Gang Fan , Ru Jun Ma , Feng Feng , Lou Uzel , Chi Yau , Jason Zhao , Zeiad M. Muntasser
CPC分类号: H01M4/661 , H01M4/244 , H01M10/0431 , H01M10/30
摘要: A nickel zinc battery cell includes a metallic zinc-based current collection substrate as a part of the negative electrode. The metallic zinc-based current collector may be made of or be coated with a zinc metal or zinc alloy material and may be a foil, perforated, or expanded material. Battery cells incorporating the zinc-based current collector exhibit good cycle lifetime and initial charge performance.
摘要翻译: 镍锌电池单元包括作为负极的一部分的金属锌基电流收集基板。 金属锌基集电器可以由锌金属或锌合金材料制成或涂覆,并且可以是箔,穿孔或膨胀材料。 结合锌基集电器的电池表现出良好的循环寿命和初始充电性能。
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公开(公告)号:US20100092857A1
公开(公告)日:2010-04-15
申请号:US12523529
申请日:2008-02-08
申请人: Jeffrey Phillips , Samaresh Mohanta , Zheng Gang Fan , Ru Jun Ma , Feng Feng , Lou Uzel , Chi Yau , Jason Zhao , Zeiad M. Muntasser
发明人: Jeffrey Phillips , Samaresh Mohanta , Zheng Gang Fan , Ru Jun Ma , Feng Feng , Lou Uzel , Chi Yau , Jason Zhao , Zeiad M. Muntasser
CPC分类号: H01M4/661 , H01M4/244 , H01M10/0431 , H01M10/30
摘要: A nickel zinc battery cell includes a metallic zinc-based current collection substrate as a part of the negative electrode. The metallic zinc-based current collector may be made of or be coated with a zinc metal or zinc alloy material and may be a foil, perforated, or expanded material. Battery cells incorporating the zinc-based current collector exhibit good cycle lifetime and initial charge performance.
摘要翻译: 镍锌电池单元包括作为负极的一部分的金属锌基电流收集基板。 金属锌基集电器可以由锌金属或锌合金材料制成或涂覆,并且可以是箔,穿孔或膨胀材料。 结合锌基集电器的电池表现出良好的循环寿命和初始充电性能。
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