首页> 外国专利> CATALYST SUPPORT USING CELLULOSE FIBER, ITS PRODUCTION METHOD, CARBON NANOTUBE GROWN DIRECTLY ON SURFACE OF THE CATALYST SUPPORT, SUPPORTED CATALYST COMPOSED OF CARBON NANOTUBE AND NANO METAL CATALYST SUPPORTED ON SURFACE THEREOF, AND ITS PRODUCTION METHOD

CATALYST SUPPORT USING CELLULOSE FIBER, ITS PRODUCTION METHOD, CARBON NANOTUBE GROWN DIRECTLY ON SURFACE OF THE CATALYST SUPPORT, SUPPORTED CATALYST COMPOSED OF CARBON NANOTUBE AND NANO METAL CATALYST SUPPORTED ON SURFACE THEREOF, AND ITS PRODUCTION METHOD

机译：使用纤维素纤维的催化剂支持，其生产方法，直接在催化剂支持表面上生长的碳纳米管，由碳纳米管和表面支持的纳米金属催化剂组成的支持的催化剂及其生产方法

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摘要

PROBLEM TO BE SOLVED: To develop a nano-metal catalyst supported catalyst reduced in its production cost, maximized in an increase in catalyst reactivity even in a small amount in a variety of catalytic reactions, and enabling the expensive nano-metal catalyst component to be easily recovered therefrom after a reaction by using a porous cellulose fiber having many micropores as a material for a support for the nano-metal catalyst supported catalyst.;SOLUTION: The production method of the present invention comprises a first step of separating a cellulose fiber to produce a catalyst support, a second step of growing a carbon nanotube on the produced catalyst support, and a third step of allowing a nano metal catalyst to be supported on the catalyst support with the grown carbon nanotube.;COPYRIGHT: (C)2009,JPO&INPIT

机译：要解决的问题：开发一种降低了生产成本，即使在少量催化反应中即使少量也能最大程度地提高催化剂反应性的纳米金属催化剂载体催化剂，并使昂贵的纳米金属催化剂组分能够通过使用具有许多微孔的多孔纤维素纤维作为用于支撑纳米金属催化剂的催化剂的载体的材料，在反应后易于从其回收。解决方案：本发明的生产方法包括第一步，将纤维素纤维分离为生产催化剂载体，第二步是在生产的催化剂载体上生长碳纳米管，第三步是用生长的碳纳米管将纳米金属催化剂负载在催化剂载体上。;版权：（C）2009，日本特许厅

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公开/公告号JP2009160569A

专利类型
公开/公告日2009-07-23

原文格式PDF
申请/专利权人 KOREA INST OF ENERGY RESEARCH;
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申请/专利号JP20080179432
发明设计人 KIM HEE YEON;JEONG NAM JO;HAN SEONG OK;KIM HONG SOO;
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申请日2008-07-09
分类号B01J23/42;B01J35/02;B01J37/08;B82B1/00;B82B3/00;C01B31/02;
国家 JP
入库时间 2022-08-21 19:45:19

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