公开(公告)号：US20100021714A1

公开(公告)日：2010-01-28

申请号：US12260262

申请日：2008-10-29

申请人： CHENG-SI TSAO ,  MING-SHENG YU ,  YI-REN TZENG ,  CHENG-YU WANG ,  HSIU-CHU WU ,  TSUI-YUN CHUNG ,  CHUN-CHING CHIEN ,  LI-FU LIN

发明人： CHENG-SI TSAO ,  MING-SHENG YU ,  YI-REN TZENG ,  CHENG-YU WANG ,  HSIU-CHU WU ,  TSUI-YUN CHUNG ,  CHUN-CHING CHIEN ,  LI-FU LIN

IPC分类号： B32B3/26 ,  C23F1/02

CPC分类号： C01B3/0078 ,  B82Y30/00 ,  C01B3/0021 ,  C01B3/0026 ,  C01B32/354 ,  Y02E60/325 ,  Y02E60/327 ,  Y10T428/249954 ,  Y10T428/24996 ,  Y10T428/249975 ,  Y10T428/249978

摘要： The present invention provides a high capacity hydrogen storage material in which a plural mesopore channels and fractal networks of nanopore channels communicating therewith and connecting to the micropores are formed in a microporous material, wherein a plural metal particles are formed on the surface of the mesopore and nanopore channels and of the micropores. In another embodiment, the present invention also provides a method for making the hydrogen storage material through oxidizing the microporous material so as to form a plural mesopore channels and fractal networks of nanopore channels, both of which are connected to the micropores to form a base for the deposition of metal particles capable of decomposing hydrogen molecules into hydrogen atoms. The high capacity hydrogen storage material is capable of increasing the capacity of hydrogen storage, and besides, the oxidizing process for making the hydrogen storage material is simple and has merits of saving cost.

摘要翻译： 本发明提供了一种高容量储氢材料，其中在微孔材料中形成多孔介质通道和与其连通并连接到微孔的纳米孔通道的分形网络，其中在中孔的表面上形成多个金属颗粒， 纳米孔通道和微孔。 在另一个实施方案中，本发明还提供了一种通过氧化微孔材料制备储氢材料以形成纳米孔通道的多个中孔通道和分形网络的方法，二者均与微孔连接以形成基底 能够将氢分子分解成氢原子的金属颗粒的沉积。 高容量储氢材料能够提高储氢能力，此外，用于制造储氢材料的氧化工艺简单，并且具有节省成本的优点。

公开(公告)号：US20090166907A1

公开(公告)日：2009-07-02

申请号：US11964724

申请日：2007-12-27

申请人： CHUN-HSIU WANG ,  MAW-CHWAIN LEE ,  WEI-XIN KAO ,  TAI-NAN LIN ,  YANG-CHUANG CHANG ,  LI-FU LIN

发明人： CHUN-HSIU WANG ,  MAW-CHWAIN LEE ,  WEI-XIN KAO ,  TAI-NAN LIN ,  YANG-CHUANG CHANG ,  LI-FU LIN

IPC分类号： B29C39/20

CPC分类号： H01M8/1213 ,  H01M4/8621 ,  H01M4/8885

摘要： This invention describes the process for fabrication of a high conductivity and low resistance solid oxide fuel cell. An anode substrate is mainly prepared via tape casting technique and modified by abrasion and polish process. Electrolyte is fabricated onto the polished side by thin film technologies and can attach well in the cross section. Grinding surface of anode side about 10-30 μm after finish of MEA combination can get a high conductivity and low resistance unit cell and enhance cell performance effectively.

摘要翻译： 本发明描述了制造高电导率和低电阻固体氧化物燃料电池的方法。 阳极基材主要通过胶带铸造技术制备，并通过磨损和抛光工艺进行改性。 电解质通过薄膜技术制成抛光面，并且可以在横截面中良好地附着。 MEA组合完成后阳极侧研磨表面约10-30μm可获得高导电性和低电阻单元，并有效提高电池性能。

公开(公告)号：US20090166908A1

公开(公告)日：2009-07-02

申请号：US11968197

申请日：2008-01-02

申请人： MAW-CHWAIN LEE ,  YANG-CHUANG CHANG ,  TAI-NAN LIN ,  WEI-XIN KAO ,  CHUN-HSIU WANG ,  LI-FU LIN

发明人： MAW-CHWAIN LEE ,  YANG-CHUANG CHANG ,  TAI-NAN LIN ,  WEI-XIN KAO ,  CHUN-HSIU WANG ,  LI-FU LIN

IPC分类号： B29C65/02

CPC分类号： H01M4/9033 ,  G01N15/088 ,  H01M4/8885 ,  H01M4/8889 ,  H01M4/9025 ,  H01M8/1213 ,  H01M8/1226 ,  H01M8/124 ,  Y02P70/56

摘要： An innovation scheme and technology used for controlling porosity/gas permeability of electrode layers of SOFC-MEA through combination of pore former and sintering manipulations. The porosity of electrode layer is 0-35 vol. %, and the gas permeability of electrode layer is 1×10−3−1×10−6 L/cm2/sec.

摘要翻译： 用于通过成孔剂和烧结操作的组合来控制SOFC-MEA电极层的孔隙率/气体渗透性的创新方案和技术。 电极层的孔隙度为0-35vol。 ％，电极层的透气度为1×10 -3 -1×10 -6 L / cm 2 /秒。