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    • 3. 发明授权
      US08999282B2 Carbophosphates and related compounds 有权
    • Carbophosphates and related compounds
    • 碳酸钙及相关化合物
    • US08999282B2
    • 2015-04-07
    • US13579202
    • 2011-02-22
    • Gerbrand CederHailong ChenRobert E. DoeGeoffroy HautierAnubhav JainByoungWoo Kang
    • Gerbrand CederHailong ChenRobert E. DoeGeoffroy HautierAnubhav JainByoungWoo Kang
    • C01B25/45H01M4/525C01B25/16H01M4/58H01M4/505H01M10/052H01M10/054
    • H01M4/525C01B25/16C01B25/45H01M4/505H01M4/5825H01M10/052H01M10/054Y02T10/7011
    • The present invention generally relates to carbophosphates and other compounds. Such compounds may be used in batteries and other electrochemical devices, or in other applications such as those described herein. One aspect of the invention is generally directed to carbophosphate compounds, i.e., compounds containing carbonate and phosphate ions. For example, according to one set of embodiments, the compound has a formula Ax(M)(PO4)a(CO3)b, where M comprises one or more cations. A may include one or more alkali metals, for example, lithium and/or sodium. In some cases, x is greater than about 0.1, a is between about 0.1 and about 5.1, and b is between about 0.1 and about 5.1. In certain embodiments, the compound may have a unit cell atomic arrangement that is isostructural to unit cells of the minerals sidorenkite, bonshtedtite, bradleyite, crawfordite, or ferrotychite. In some embodiments, the compound may have a formula Ax(M)(YO4)a(XO3)b, where A comprises one or more alkali metals, M comprises one or more cations, X includes B, C, and/or N, and Y includes Si, P, As, S, V, Nb, Mo, and/or W. In some cases, x is greater than about 0.1, a is between about 0.1 and about 5.1, and b is between about 0.1 and about 5.1. Other aspects of the invention are generally directed to techniques for making or using such compounds, kits involving such compounds, and the like.
    • 本发明一般涉及碳水化合物和其它化合物。 这样的化合物可以用于电池和其它电化学装置,或其它应用中,例如本文所述的那些。 本发明的一个方面通常涉及碳磷酸酯化合物,即含有碳酸盐和磷酸根离子的化合物。 例如,根据一组实施方案,化合物具有式Ax(M)(PO4)a(CO3)b,其中M包含一种或多种阳离子。 A可以包括一种或多种碱金属,例如锂和/或钠。 在一些情况下,x大于约0.1,a为约0.1至约5.1,b为约0.1至约5.1。 在某些实施方案中,所述化合物可以具有与贵金属异硬球铁矿,硼砂石,布朗氏铁矿,克氏绒土矿或铁铁矿相同的结构同位素的晶胞原子排列。 在一些实施方案中,化合物可以具有式Ax(M)(YO 4)a(XO 3)b,其中A包含一种或多种碱金属,M包含一种或多种阳离子,X包括B,C和/或N, 并且Y包括Si,P,As,S,V,Nb,Mo和/或W.在一些情况下,x大于约0.1,a在约0.1和约5.1之间,b在约0.1和约 5.1。 本发明的其它方面一般涉及用于制备或使用这些化合物的技术,涉及这些化合物的试剂盒等。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 4. 发明申请
      US20130099174A1 LITHIUM MANGANESE BORATE COMPOUNDS 有权
    • LITHIUM MANGANESE BORATE COMPOUNDS
    • 锰酸锰化合物
    • US20130099174A1
    • 2013-04-25
    • US13643971
    • 2011-05-05
    • Gerbrand CederJae Chul KimByoungWoo KangCharles J. MooreGeoffroy Hautier
    • Gerbrand CederJae Chul KimByoungWoo KangCharles J. MooreGeoffroy Hautier
    • H01M4/58
    • H01M4/5825C01B35/121C01B35/128H01M4/136H01M10/0525Y02E60/122Y02T10/7011
    • The present invention generally relates to certain lithium materials, including lithium manganese borate materials. Such materials are of interest in various applications such as energy storage. Certain aspects of the invention are directed to lithium manganese borate materials, for example, having the formula LixMny(BO3). In some cases, the lithium manganese borate materials may include other elements, such as iron, magnesium, copper, zinc, calcium, etc. The lithium manganese borate materials, according to one set of embodiments, may be present as a monoclinic crystal system. Such materials may surprisingly exhibit relatively high energy storage capacities, for example, at least about 96 mA h/g. Other aspects of the invention relate to devices comprising such materials, methods of making such materials, kits for making such materials, methods of promoting the making or use of such materials, and the like.
    • 本发明一般涉及某些锂材料,包括硼酸锂硼酸盐材料。 这种材料在诸如能量储存的各种应用中是感兴趣的。 本发明的某些方面涉及硼酸锂硼酸盐材料,例如具有式LixMny(BO3)。 在一些情况下,硼酸锂锰材料可以包括其它元素,例如铁,镁,铜,锌,钙等。根据一组实施方案,硼酸锰锂材料可以以单斜晶体体系存在。 这样的材料可能出人意料地表现出相当高的能量存储容量,例如至少约96mAh / g。 本发明的其它方面涉及包括这种材料的装置,制造这种材料的方法,用于制造这种材料的试剂盒,促进制造或使用这种材料的方法等。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 6. 发明授权
      US07947162B2 Free standing single-crystal nanowire growth by electro-chemical deposition 有权
    • Free standing single-crystal nanowire growth by electro-chemical deposition
    • 通过电化学沉积自由存在的单晶纳米线生长
    • US07947162B2
    • 2011-05-24
    • US11746023
    • 2007-05-08
    • Geoffroy HautierPhilippe M. Vereecken
    • Geoffroy HautierPhilippe M. Vereecken
    • C25D5/02
    • C25D5/022C25D3/54C25D17/001C25D17/007
    • The present invention relates to a method for obtaining monocrystalline or single crystal nanowires. Said nanowires are grown in a pattern making use of electro-chemical deposition techniques. Most preferred, the electrolytic bath is based on chlorides and has an acidic pH. Single element as well as combinations of two elements nanowires can be grown. Depending on the element properties the obtained nanowire can have metallic (conductive) or semi-metallic (semi-conductive) properties. The observed nanowire growth presents an unusual behavior compared to the classical nanowire template-assisted growth where a cap is formed as soon as the metal grows out of the pattern. Under given conditions of bath composition and potential (current) settings the nanowires grow out of the pattern up to a few microns without any significant lateral overgrowth.
    • 本发明涉及一种获得单晶或单晶纳米线的方法。 所述纳米线以使用电化学沉积技术的图案生长。 最优选地,电解浴基于氯化物并具有酸性pH。 单个元素以及两个元素的组合可以生长纳米线。 取决于元素性质,所得纳米线可具有金属(导电)或半金属(半导电)性质。 观察到的纳米线生长与经典的纳米线模板辅助生长相比是一个不寻常的行为,其中一旦金属从图案中生长出来,形成帽。 在给定的浴组成和潜在(电流)设置条件下,纳米线从图案长出几微米,没有任何明显的横向过度生长。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 7. 发明申请
      US20080217181A1 FREE STANDING SINGLE-CRYSTAL NANOWIRE GROWTH BY ELECTRO-CHEMICAL DEPOSITION 有权
    • FREE STANDING SINGLE-CRYSTAL NANOWIRE GROWTH BY ELECTRO-CHEMICAL DEPOSITION
    • 通过电化学沉积法实现单晶纳米线生长
    • US20080217181A1
    • 2008-09-11
    • US11746023
    • 2007-05-08
    • Geoffroy HautierPhilippe M. Vereecken
    • Geoffroy HautierPhilippe M. Vereecken
    • C25D1/04
    • C25D5/022C25D3/54C25D17/001C25D17/007
    • The present invention relates to a method for obtaining monocrystalline or single crystal nanowires. Said nanowires are grown in a pattern making use of electro-chemical deposition techniques. Most preferred, the electrolytic bath is based on chlorides and has an acidic pH. Single element as well as combinations of two elements nanowires can be grown. Depending on the element properties the obtained nanowire can have metallic (conductive) or semi-metallic (semi-conductive) properties. The observed nanowire growth presents an unusual behavior compared to the classical nanowire template-assisted growth where a cap is formed as soon as the metal grows out of the pattern. Under given conditions of bath composition and potential (current) settings the nanowires grow out of the pattern up to a few microns without any significant lateral overgrowth.
    • 本发明涉及一种获得单晶或单晶纳米线的方法。 所述纳米线以使用电化学沉积技术的图案生长。 最优选地,电解浴基于氯化物并具有酸性pH。 单个元素以及两个元素的组合可以生长纳米线。 取决于元素性质,所得纳米线可具有金属(导电)或半金属(半导电)性质。 观察到的纳米线生长与经典的纳米线模板辅助生长相比是一个不寻常的行为,其中一旦金属从图案中生长出来,形成盖。 在给定的浴组成和潜在(电流)设置条件下,纳米线从图案长出几微米,没有任何明显的横向过度生长。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
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