Silica mesoporous aerogels having three-dimensional nanoarchitecture with colloidal gold-protein superstructures nanoglued therein
    3.
    发明授权
    Silica mesoporous aerogels having three-dimensional nanoarchitecture with colloidal gold-protein superstructures nanoglued therein 有权
    具有三维纳米结构的硅胶介孔气凝胶与胶体金 - 蛋白质超结构纳米凝胶

    公开(公告)号:US07238729B2

    公开(公告)日:2007-07-03

    申请号:US10923151

    申请日:2004-08-18

    IPC分类号: C08J9/36 C07K14/80

    摘要: This disclosure describes the first viable non-enzyme protein encapsulated within an aerogel. In this, a large excess of cyt c is added to a commercial buffered Au sol solution ( ) which results in the formation of a gold˜protein-protein superstructure in the absence of separation techniques which destroy the superstructure.The gold˜protein-protein superstructure is then nanoglued into a silica framework during the sol to gel transition. To form the gel, the Au˜cyt. c superstructure in buffered medium is added to a silica sol and the composite gels are washed with acetone followed by liquid carbon dioxide and then supercritically dried to form the aerogel.The biocomposite aerogels have a multiplicity of applications particularly in the realm of sensing and energy transformation.

    摘要翻译: 本公开描述了包封在气凝胶内的第一种可行的非酶蛋白。 在这种情况下,大量过量的cyt c被添加到商业缓冲Au溶液()中,这导致在没有破坏上层结构的分离技术的情况下形成金 - 蛋白质 - 蛋白质上层结构。 然后,金 - 蛋白质 - 蛋白质上层结构在溶胶凝胶转变过程中纳米晶化成二氧化硅框架。 为了形成凝胶,Au〜cyt。 将缓冲介质中的c上层结构加入二氧化硅溶胶中,并用丙酮洗涤复合凝胶,然后用液态二氧化碳洗涤,然后超临界干燥形成气凝胶。 生物复合气凝胶具有多种应用,特别是在感测和能量转化领域。

    Silica mesoporous aerogels having three-dimensional nanoarchitecture with colloidal gold-protein superstructures nanoglued therein
    4.
    发明授权
    Silica mesoporous aerogels having three-dimensional nanoarchitecture with colloidal gold-protein superstructures nanoglued therein 有权
    具有三维纳米结构的硅胶介孔气凝胶与胶体金 - 蛋白质超结构纳米凝胶

    公开(公告)号:US06824776B2

    公开(公告)日:2004-11-30

    申请号:US10414570

    申请日:2003-04-16

    IPC分类号: C08J936

    摘要: This disclosure describes the first viable non-enzyme protein encapsulated within an aerogel. In this, a large excess of cyt. c is added to a commercial buffered Au sot solution ( ) which results in the formation of a gold˜protein-protein superstructure in the absence of separation techniques which destroy the superstructure. The gold˜protein-protein superstructure is then nanoglued into a silica framework during the sol to gel transition. To form the gel, the Au-cyt. c superstructure in buffered medium is added to a silica sol and the composite gels are washed with acetone followed by liquid carbon dioxide and then supercritically dried to form the aerogel. The biocomposite aerogels have a multiplicity of applications particularly in the realm of sensing and energy transformation.

    摘要翻译: 本公开描述了包封在气凝胶内的第一种可行的非酶蛋白。 在这里,大量的cyt。 c被添加到商业缓冲Au sot溶液()中,这导致在不存在破坏上层结构的分离技术的情况下形成金 - 蛋白质 - 蛋白质上层结构。然后将金蛋白 - 蛋白质上层结构纳米晶化成二氧化硅框架 在溶胶凝胶过渡期间。 为了形成凝胶,Au-cyt。 将缓冲介质中的c上层结构添加到二氧化硅溶胶中,并用丙酮洗涤复合凝胶,然后用液态二氧化碳洗涤,然后超临界干燥以形成气凝胶。生物复合气凝胶具有多种应用,特别是在感测和能量转换领域 。

    RuO2-COATED FIBROUS INSULATOR
    7.
    发明申请
    RuO2-COATED FIBROUS INSULATOR 有权
    RuO2涂层纤维绝缘子

    公开(公告)号:US20090092834A1

    公开(公告)日:2009-04-09

    申请号:US12245978

    申请日:2008-10-06

    IPC分类号: B05D1/18 B32B9/00

    摘要: An article having: a nonconductive fiber and a RuO2 coating. A method of: immersing a nonconductive article in a solution of RuO4 and a nonpolar solvent at a temperature that is below the temperature at which RuO4 decomposes to RuO2 in the nonpolar solvent in the presence of the article; and warming the article and solution to ambient temperature under ambient conditions to cause the formation of a RuO2 coating on a portion of the article. An article having: a nonconductive fiber and a coating. The coating is made by electroless deposition, sputtering, atomic-layer deposition, chemical vapor deposition, or physical vapor deposition.

    摘要翻译: 具有:非导电纤维和RuO 2涂层的制品。 一种方法:在RuO 4和非极性溶剂的溶液中,在物品存在下,在非极性溶剂中RuO 4分解为RuO 2的温度下,将非导电制品浸入; 并在环境条件下将制品和溶液升温至环境温度,以在制品的一部分上形成RuO 2涂层。 具有:非导电纤维和涂层的制品。 涂层通过无电沉积,溅射,原子层沉积,化学气相沉积或物理气相沉积制成。