公开(公告)号：US08968644B2

公开(公告)日：2015-03-03

申请号：US12928109

申请日：2010-12-02

申请人： Kwo Young ,  Michael A. Fetcenko ,  Baoquan Huang ,  Ben Chao

发明人： Kwo Young ,  Michael A. Fetcenko ,  Baoquan Huang ,  Ben Chao

IPC分类号： C22C19/03 ,  H01M10/34 ,  H01M4/24 ,  H01M4/38

CPC分类号： C22C19/03 ,  H01M4/242 ,  H01M4/383 ,  H01M10/345

摘要： A hydrogen storage alloy having the atomic formula AB4.75-5.25. Where A may comprise at least 85 atomic percent Nd and less than 15 atomic percent other rare earth elements and Mg and B may comprise Ni, Co, and at least one element selected from the group consisting of Mn and Al. The atomic percentages of Mn and Al may be governed by the following formulas where Mn and Al are in atomic percent: 1) Mn+1.5 Al≧6 atomic percent; and 2) Mn+Al≦12 atomic percent. The total percent of Mn and Al may provide the alloy with a 20° C. plateau pressure of between 4 and 25 psi, preferably between 6 and 20 psi. The hydrogen storage alloy allows a nickel metal hydride battery into which it is incorporated to maintain a voltage of at least 1.2 V at a depth of discharge of 90%.

摘要翻译： 具有原子化学式AB4.75-5.25的储氢合金。 其中A可以包含至少85原子％的Nd和小于15原子％的其它稀土元素，并且Mg和B可以包含Ni，Co和至少一种选自Mn和Al的元素。 Mn和Al的原子百分比可以由下式表示：Mn和Al的原子百分比：1）Mn +1.5Al≥6原子％ 和2）Mn + Al＆nlE; 12原子％。 Mn和Al的总百分比可以为合金提供在4和25psi之间，优选在6和20psi之间的20℃平台压力。 储氢合金允许其中所掺入的镍金属氢化物电池在放电深度为90％时保持至少1.2V的电压。

公开(公告)号：US20120141319A1

公开(公告)日：2012-06-07

申请号：US12928109

申请日：2010-12-02

申请人： Kwo Young ,  Michael A. Fetcenko ,  Baoquan Huang ,  Ben Chao

发明人： Kwo Young ,  Michael A. Fetcenko ,  Baoquan Huang ,  Ben Chao

IPC分类号： C22C19/03

CPC分类号： C22C19/03 ,  H01M4/242 ,  H01M4/383 ,  H01M10/345

摘要： A hydrogen storage alloy having the atomic formula AB4.75-5.25. Where A may comprise at least 85 atomic percent Nd and less than 15 atomic percent other rare earth elements and Mg and B may comprise Ni, Co, and at least one element selected from the group consisting of Mn and Al. The atomic percentages of Mn and Al may be governed by the following formulas where Mn and Al are in atomic percent: 1) Mn+1.5 Al≧6 atomic percent; and 2) Mn+Al≦12 atomic percent. The total percent of Mn and Al may provide the alloy with a 20° C. plateau pressure of between 4 and 25 psi, preferably between 6 and 20 psi. The hydrogen storage alloy allows a nickel metal hydride battery into which it is incorporated to maintain a voltage of at least 1.2 V at a depth of discharge of 90%.

摘要翻译： 一种具有原子化学式AB4.75-5.25的储氢合金。 其中A可以包含至少85原子％的Nd和小于15原子％的其它稀土元素，并且Mg和B可以包含Ni，Co和至少一种选自Mn和Al的元素。 Mn和Al的原子百分比可以由下式表示：Mn和Al的原子百分比：1）Mn +1.5Al≥6原子％ 和2）Mn + Al＆nlE; 12原子％。 Mn和Al的总百分比可以为合金提供在4和25psi之间，优选在6和20psi之间的20℃平台压力。 储氢合金允许其中所掺入的镍金属氢化物电池在放电深度为90％时保持至少1.2V的电压。

公开(公告)号：US06830725B2

公开(公告)日：2004-12-14

申请号：US10405008

申请日：2003-04-01

申请人： Michael A. Fetcenko ,  Stanford R. Ovshinsky ,  Kwo Young ,  Benjamin Reichman ,  Taihei Ouchi ,  John Koch ,  William Mays

发明人： Michael A. Fetcenko ,  Stanford R. Ovshinsky ,  Kwo Young ,  Benjamin Reichman ,  Taihei Ouchi ,  John Koch ,  William Mays

IPC分类号： C22C3000

CPC分类号： H01M4/383 ,  H01M10/345 ,  Y02E60/324 ,  Y10S420/90

摘要： Electrochemical and thermal hydrogen storage alloy compositions that provide superior performance, including an electrochemical hydrogen storage alloy that provides superior low temperature discharge characteristics. The alloy compositions include microstructures in the interface region that are highly porous and that include catalytic metallic particles. The microstructures include a large volume fraction of voids having spherical or channel-like shapes and are sufficiently open structurally to facilitate greater mobility of reactive species within the microstructure and in the vicinity of catalytic metallic particles. Greater accessibility to reactive sites accordingly results. The greater mobility of reactive species and/or the greater density of catalytic particles lead to faster kinetics and improved performance (e.g. higher power), especially at low operating temperatures. The microstructures may be formed through inclusion of a microstructure tuning element in the alloy composition, through control of processing conditions and/or through inclusion of etching steps in the post-formation processing of hydrogen storage alloys.

摘要翻译： 提供优异性能的电化学和热储氢合金组合物，包括提供优异的低温放电特性的电化学储氢合金。 合金组合物包括界面区域中的高度多孔的微结构，并且包括催化金属颗粒。 微结构包括具有球形或通道状形状的大体积分数的空隙，并且在结构上足够开放以促进反应性物质在微结构内和催化金属颗粒附近的更大迁移率。 因此可以更好地获得反应性网站。 活性物质的较大迁移率和/或更大密度的催化剂颗粒导致更快的动力学和改进的性能（例如更高的功率），特别是在低的操作温度下。 可以通过在合金组合物中包含微结构调谐元件，通过控制加工条件和/或通过在储氢合金的后形成处理中包括蚀刻步骤来形成微观结构。

公开(公告)号：US06461766B1

公开(公告)日：2002-10-08

申请号：US09575313

申请日：2000-05-19

申请人： Kwo Young ,  Michael A. Fetcenko ,  Stanford R. Ovshinsky

发明人： Kwo Young ,  Michael A. Fetcenko ,  Stanford R. Ovshinsky

IPC分类号： H01M452

CPC分类号： H01M4/242 ,  B22F1/0088 ,  B22F9/023 ,  B22F2998/00 ,  C01B3/0031 ,  C01B3/0084 ,  H01M4/04 ,  H01M4/383 ,  Y02E60/327 ,  Y02E60/328 ,  Y02P20/129 ,  C22C1/0491

摘要： An anti-pyrophoric hydrogen storage material having an engineered surface oxide to enhance initial activation and a method for making the same. The method for making. the hydrogen storage material includes the steps of providing a hydrogen storage powder and oxidizing the powder with a controlled oxidation reaction. In a preferred aspect hereof, the method includes providing a bulk hydrogen storage alloy; hydriding the alloy to form a comminuted material; and oxidizing the surface of the comminuted material with a controlled oxidation reaction. In another preferred aspect hereof, a passivating material is added to the comminuted material prior to the step for oxidizing to enhance initial activation. In still another preferred aspect hereof, at least one sacrificial modifier is provided in the particalized material to enhance initial activation.

摘要翻译： 具有工程化表面氧化物以增强初始活化的抗自燃氢存储材料及其制备方法。 制作方法。 储氢材料包括提供储氢粉末并用受控氧化反应氧化粉末的步骤。 在本发明的优选方案中，该方法包括提供块体储氢合金; 氢化合金以形成粉碎材料; 并用受控的氧化反应氧化粉碎材料的表面。 在本发明的另一优选方面，在氧化步骤以增强初始活化之前，将钝化材料加入粉碎材料中。 在本发明的另一优选方面，在部分化材料中提供至少一种牺牲改性剂以增强初始活化。

公开(公告)号：US06348285B2

公开(公告)日：2002-02-19

申请号：US09751180

申请日：2000-12-30

申请人： Michael A. Fetcenko ,  Christian Fierro ,  Stanford R. Ovshinsky ,  Beth Sommers ,  Benjamin Reichman ,  Kwo Young ,  William Mays

发明人： Michael A. Fetcenko ,  Christian Fierro ,  Stanford R. Ovshinsky ,  Beth Sommers ,  Benjamin Reichman ,  Kwo Young ,  William Mays

IPC分类号： H01M462

CPC分类号： H01M4/626 ,  H01M4/02 ,  H01M4/32 ,  H01M4/52 ,  H01M4/624 ,  H01M4/625

摘要： A method for making a composite positive electrode material for use in electrochemical cells. The composite material includes a particle of positive electrode material and a conductive material at least partially embedded within the interior of the particle of positive electrode material.

摘要翻译： 制造用于电化学电池的复合正极材料的方法。 复合材料包括正极材料的颗粒和至少部分地嵌入在正极材料的颗粒内部的导电材料。

公开(公告)号：US5840440A

公开(公告)日：1998-11-24

申请号：US560612

申请日：1995-11-20

申请人： Stanford R. Ovshinsky ,  Michael A. Fetcenko ,  Jun Su Im ,  Kwo Young ,  Benjamin S. Chao ,  Benjamin Reichman

发明人： Stanford R. Ovshinsky ,  Michael A. Fetcenko ,  Jun Su Im ,  Kwo Young ,  Benjamin S. Chao ,  Benjamin Reichman

IPC分类号： C01B3/00 ,  C22C14/00 ,  C22C16/00 ,  C22C19/00 ,  C22C27/06 ,  H01M4/38 ,  H01M10/34

CPC分类号： C01B3/0031 ,  C01B3/0057 ,  C01B3/0084 ,  H01M4/383 ,  B22F2998/00 ,  Y02E60/327 ,  Y10S420/90

摘要： Disordered multicomponent hydrogen storage material characterized by extraordinarily high storage capacity due to a high density of useable hydrogen storage sites (greater than 10.sup.23 defect sites/cc) and/or an extremely small crystallite size. The hydrogen storage material can be employed for electrochemical, fuel cell and gas phase applications. The material may be selected from either of the modified LaNi.sub.5 or modified TiNi families formulated to have a crystallite size of less than 200 Angstroms and most preferably less than 100 Angstroms.

摘要翻译： 无机多组分储氢材料的特征在于由于高可用氢储存位点（大于1023个缺陷部位/ cc）和/或非常小的微晶尺寸而具有非常高的储存能力。 储氢材料可用于电化学，燃料电池和气相应用。 该材料可以选自配制成具有小于200埃，最优选小于100埃的微晶尺寸的经修饰的LaNi5或修饰的TiNi族中的任一种。

公开(公告)号：US07211541B2

公开(公告)日：2007-05-01

申请号：US10733702

申请日：2003-12-11

申请人： Michael A. Fetcenko ,  Kwo Young ,  Taihei Ouchi ,  Melanie Reinhout ,  Stanford R. Ovshinsky

发明人： Michael A. Fetcenko ,  Kwo Young ,  Taihei Ouchi ,  Melanie Reinhout ,  Stanford R. Ovshinsky

IPC分类号： B01J23/58 ,  B01J23/42 ,  B01J23/40 ,  B01J23/00 ,  H01M4/58

CPC分类号： H01M4/383 ,  H01M10/345 ,  Y02E60/324 ,  Y10T428/12944

摘要： A hydrogen storage composite material having a Mg—Ni based alloy with a coating of a catalytically active metal deposited on at least a portion of a surface of said Mg—Ni based alloy. The coating is less than about 200 angstroms thick and preferably is formed from iron or palladium. The composite material is capable of adsorbing at least 3 weight percent hydrogen and desorbing at least 1 weight percent hydrogen at 30° C. The Mg—Ni based alloy has a microstructure including both a Mg-rich phase and a Ni-rich phase, micro-tubes having an inner core of Ni-rich material surrounded by a sheathing of Mg-rich material, amorphous structural regions and microcrystalline structural regions.

摘要翻译： 一种储氢复合材料，其具有在所述Mg-Ni基合金的表面的至少一部分上沉积的具有催化活性金属涂层的Mg-Ni基合金。 该涂层厚度小于约200埃，优选由铁或钯形成。 该复合材料能够吸附至少3重量％的氢气并在30℃解吸至少1重量％的氢.Mg-Ni基合金具有包括富镁相和富Ni相的微结构，微观 具有由富Mg材料的包层，非晶结构区域和微晶结构区域包围的富Ni材料的内核的管。

公开(公告)号：US06964826B2

公开(公告)日：2005-11-15

申请号：US10200612

申请日：2002-07-22

申请人： Stanford R. Ovshinsky ,  Benjamin Reichman ,  Michael A. Fetcenko ,  Kwo Young ,  William Mays ,  James Strebe

发明人： Stanford R. Ovshinsky ,  Benjamin Reichman ,  Michael A. Fetcenko ,  Kwo Young ,  William Mays ,  James Strebe

IPC分类号： H01M4/90 ,  B01J21/08 ,  B01J23/00 ,  B01J29/04 ,  H01M4/38 ,  H01M4/52 ,  H01M4/86 ,  H01M4/88 ,  H01M8/12 ,  H01M10/34

CPC分类号： H01M4/9075 ,  H01M4/8657 ,  H01M4/885 ,  H01M4/90 ,  H01M4/9066

摘要： An industrial catalyst having: a support; a plurality of metallic particulates distributed throughout the support; and a metal at least partially covering the surface of the support.A method for making a catalyst including the steps of: forming a support with non-noble metal particulates distributed throughout the support; and at least partially covering the surface of the support with a metal.

摘要翻译： 一种工业催化剂，具有：支撑体; 分布在整个支撑体上的多个金属微粒; 以及至少部分地覆盖支撑体表面的金属。 一种制备催化剂的方法，包括以下步骤：用分布在整个载体上的非贵金属微粒形成载体; 并且用金属至少部分地覆盖支撑体的表面。

公开(公告)号：US06270719B1

公开(公告)日：2001-08-07

申请号：US09290633

申请日：1999-04-12

申请人： Michael A. Fetcenko ,  Kwo Young ,  Stanford R. Ovshinsky ,  Benjamin Reichman ,  John Koch ,  William Mays

发明人： Michael A. Fetcenko ,  Kwo Young ,  Stanford R. Ovshinsky ,  Benjamin Reichman ,  John Koch ,  William Mays

IPC分类号： C22C3000

CPC分类号： C01B3/0031 ,  C22C14/00 ,  C22C16/00 ,  C22C27/025 ,  C22C27/06 ,  H01M4/383 ,  Y02E60/327 ,  Y10S420/90 ,  Y10T428/12104

摘要： A modified Ti—V—Zr—Ni—Mn—Cr electrochemical hydrogen storage alloy which has at least one of the following characteristics: 1) an increased charge/discharge rate capability over that the base Ti—V—Zr—Ni—Mn—Cr electrochemical hydrogen storage alloy; 2) a formation cycling requirement which is reduced to one tenth that of the base Ti—V—Zr—Ni—Mn—Cr electrochemical hydrogen storage alloy; or 3) an oxide surface layer having a higher electrochemical hydrogen storage catalytic activity than the base Ti—V—Zr—Ni—Mn—Cr electrochemical hydrogen storage alloy.

摘要翻译： 具有以下特征中的至少一个的改性Ti-V-Zr-Ni-Mn-Cr电化学储氢合金：1）比Ti-V-Zr-Ni-Mn- Cr电化学储氢合金; 2）形成循环要求减少到基体Ti-V-Zr-Ni-Mn-Cr电化学储氢合金的十分之一; 或3）具有比基体Ti-V-Zr-Ni-Mn-Cr电化学储氢合金更高的电化学储氢催化活性的氧化物表面层。

公开(公告)号：US5616432A

公开(公告)日：1997-04-01

申请号：US436673

申请日：1995-05-08

申请人： Stanford R. Ovshinsky ,  Michael A. Fetcenko ,  Benjamin Reichman ,  Kwo Young ,  Benjamin Chao ,  Jun Im

发明人： Stanford R. Ovshinsky ,  Michael A. Fetcenko ,  Benjamin Reichman ,  Kwo Young ,  Benjamin Chao ,  Jun Im

IPC分类号： C01B3/00 ,  H01M4/38

CPC分类号： C01B3/0042 ,  C01B3/0031 ,  C01B3/0057 ,  H01M4/383 ,  Y02E60/327 ,  Y10S420/90

摘要： A disordered multicomponent MgNi based electrochemical hydrogen storage material having a microstructure including a substantial volume fraction characterized by intermediate range order and exhibiting extraordinarily high storage capacity and methods of fabricating same.

摘要翻译： 一种无序的多组分MgNi基电化学储氢材料，其具有包括以中等程度顺序表征并具有非常高的储存容量的大体积分数的微结构及其制造方法。