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    • 1. 发明申请
    • Catalytic Materials for Fabricating Nanostructures
    • 用于制造纳米结构的催化材料
    • US20100210456A1
    • 2010-08-19
    • US12370885
    • 2009-02-13
    • Roland D. SealsPaul A. MenchhoferJane Y. HoweWei Wang
    • Roland D. SealsPaul A. MenchhoferJane Y. HoweWei Wang
    • B01J21/08
    • B01J35/0013B01J21/08B01J23/74B01J23/745B01J31/0274B01J35/006B01J37/0072B01J37/033B01J37/18
    • Nano-catalysts that have utility for forming nanostructures and manufacturing nanomaterials are described. In some embodiments the nano-catalyst is formed from a powder-based substrate material and is some embodiments the nano-catalyst is formed from a solid-based substrate material. In some embodiments the substrate material may include metal, ceramic, or silicon or another metalloid. The nano-catalysts typically have metal nanoparticles disposed adjacent the surface of the substrate material. Methods of forming the nano-catalysts are disclosed. The methods typically include functionalizing the surface of the substrate material with a chelating agent, such as a chemical having dissociated carboxyl functional groups (—COO), that provides an enhanced affinity for metal ions. The functionalized substrate surface may then be exposed to a chemical solution that contains metal ions. The metal ions are then bound to the substrate material and may then be reduced, such as by a stream of gas that includes hydrogen, to form metal nanoparticles adjacent the surface of the substrate.
    • 描述了可用于形成纳米结构和制造纳米材料的纳米催化剂。 在一些实施方案中,纳米催化剂由粉末基底材料形成,并且是一些实施方案,纳米催化剂由固体基底材料形成。 在一些实施例中,衬底材料可以包括金属,陶瓷或硅或另一种准金属。 纳米催化剂通常具有邻近衬底材料的表面设置的金属纳米颗粒。 公开了形成纳米催化剂的方法。 所述方法通常包括用螯合剂(例如具有解离的羧基官能团(-COO)的化学物质)官能化底物材料的表面,其提供对金属离子的增强的亲和力。 然后将官能化的基底表面暴露于含有金属离子的化学溶液。 然后将金属离子结合到衬底材料上,然后可以例如通过包括氢的气体流来还原,以形成邻近衬底表面的金属纳米颗粒。
    • 2. 发明授权
    • Method of producing catalytic materials for fabricating nanostructures
    • 生产纳米结构催化材料的方法
    • US08377840B2
    • 2013-02-19
    • US12370892
    • 2009-02-13
    • Roland D. SealsPaul A. MenchhoferJane Y. HoweWei Wang
    • Roland D. SealsPaul A. MenchhoferJane Y. HoweWei Wang
    • B01J21/08B01J21/06
    • B01J23/755B01J21/08B01J23/74B01J23/745B01J31/0274B01J35/0013B01J37/0072B01J37/033B01J37/18B82Y40/00Y10S977/773Y10S977/81Y10S977/892
    • Methods of fabricating nano-catalysts are described. In some embodiments the nano-catalyst is formed from a powder-based substrate material and is some embodiments the nano-catalyst is formed from a solid-based substrate material. In some embodiments the substrate material may include metal, ceramic, or silicon or another metalloid. The nano-catalysts typically have metal nanoparticles disposed adjacent the surface of the substrate material. The methods typically include functionalizing the surface of the substrate material with a chelating agent, such as a chemical having dissociated carboxyl functional groups (—COO), that provides an enhanced affinity for metal ions. The functionalized substrate surface may then be exposed to a chemical solution that contains metal ions. The metal ions are then bound to the substrate material and may then be reduced, such as by a stream of gas that includes hydrogen, to form metal nanoparticles adjacent the surface of the substrate.
    • 描述了制备纳米催化剂的方法。 在一些实施方案中,纳米催化剂由粉末基底材料形成,并且是一些实施方案,纳米催化剂由固体基底材料形成。 在一些实施例中,衬底材料可以包括金属,陶瓷或硅或另一种准金属。 纳米催化剂通常具有邻近衬底材料的表面设置的金属纳米颗粒。 所述方法通常包括用螯合剂(例如具有解离的羧基官能团(-COO)的化学物质)官能化底物材料的表面,其提供对金属离子的增强的亲和力。 然后将官能化的基底表面暴露于含有金属离子的化学溶液。 然后将金属离子结合到衬底材料上,然后可以例如通过包括氢的气体流来还原,以形成邻近衬底表面的金属纳米颗粒。