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  Patent History
  • Application
    DE 20016019770T 2001-12-13
  • Publication
    DE 60119770 2007-04-26
Supplementary

published patent: METHODS AND APPARATUS FOR THE OXIDATION OF GLUCOSE MOLECULES

TitleMETHODS AND APPARATUS FOR THE OXIDATION OF GLUCOSE MOLECULES
Priority Date2000-12-14 US 09/255608P
2001-12-13 PCT/CN2001001619
Inventors
Issue Date2007
Citation
Germany Published Patent Application DE 60119770. Munich, Germany: The German Patent and Trade Mark Office (DPMA), 2007 How to Cite?
AbstractA catalyst comprising Pt-Co alloy, or Pt-Co-Sn alloy or Pt-Co>mn< mixed metal oxides is disclosed to be used as a catalyst for the direct electrochemical oxidation of glucose or other simple sugars and carbohydrates at room temperature. The catalyst can be supported on metal electrodes, graphite electrodes, porous carbon electrodes, or gas diffusion electrodes. An electrode containing this catalyst will be used as the key component in a direct glucose-air fuel cell operating in alkaline media with a good room temperature performance. This catalyst can also be applied as a key electrode material in a glucose sensor to detect glucose concentration in neutral or alkaline medium. The preparation method of the catalyst, optimum composition, and results of glucose sensor and glucose fuel cell applications are disclosed.A catalyst comprising Pt-Co alloy, or Pt-Co-Sn alloy or Pt-ComOn mixed metal oxides is disclosed to be used as a catalyst for the direct electrochemical oxidation of glucose or other simple sugars and carbohydrates at room temperature. The catalyst can be supported on metal electrodes, graphite electrodes, porous carbon electrodes, or gas diffusion electrodes. An electrode containing this catalyst will be used as the key component in a direct glucose-air fuel cell operating in alkaline media with a good room temperature performance. This catalyst can also be applied as a key electrode material in a glucose sensor to detect glucose concentration in neutral or alkaline medium. The preparation method of the catalyst, optimum composition, and results of glucose sensor and glucose fuel cell applications are disclosed.
Persistent Identifierhttp://hdl.handle.net/10722/176709

 

DC FieldValueLanguage
dc.date.accessioned2012-11-30T08:38:23Z-
dc.date.available2012-11-30T08:38:23Z-
dc.date.issued2007-
dc.identifier.citationGermany Published Patent Application DE 60119770. Munich, Germany: The German Patent and Trade Mark Office (DPMA), 2007en_HK
dc.identifier.urihttp://hdl.handle.net/10722/176709-
dc.description.abstractA catalyst comprising Pt-Co alloy, or Pt-Co-Sn alloy or Pt-Co>m<O>n< mixed metal oxides is disclosed to be used as a catalyst for the direct electrochemical oxidation of glucose or other simple sugars and carbohydrates at room temperature. The catalyst can be supported on metal electrodes, graphite electrodes, porous carbon electrodes, or gas diffusion electrodes. An electrode containing this catalyst will be used as the key component in a direct glucose-air fuel cell operating in alkaline media with a good room temperature performance. This catalyst can also be applied as a key electrode material in a glucose sensor to detect glucose concentration in neutral or alkaline medium. The preparation method of the catalyst, optimum composition, and results of glucose sensor and glucose fuel cell applications are disclosed.A catalyst comprising Pt-Co alloy, or Pt-Co-Sn alloy or Pt-ComOn mixed metal oxides is disclosed to be used as a catalyst for the direct electrochemical oxidation of glucose or other simple sugars and carbohydrates at room temperature. The catalyst can be supported on metal electrodes, graphite electrodes, porous carbon electrodes, or gas diffusion electrodes. An electrode containing this catalyst will be used as the key component in a direct glucose-air fuel cell operating in alkaline media with a good room temperature performance. This catalyst can also be applied as a key electrode material in a glucose sensor to detect glucose concentration in neutral or alkaline medium. The preparation method of the catalyst, optimum composition, and results of glucose sensor and glucose fuel cell applications are disclosed.en_HK
dc.rightsCreative Commons: Attribution 3.0 Hong Kong License For Public Patent Documentsen_US
dc.titleMETHODS AND APPARATUS FOR THE OXIDATION OF GLUCOSE MOLECULESen_HK
dc.typePatenten_US
dc.description.naturepublished_or_final_versionen_US
dc.contributor.inventorChan, Kwong-Yuen_HK
dc.contributor.inventorZhang, Xinen_HK
dc.contributor.inventorLam, Chung Manen_HK
dc.contributor.inventorTseung, Alfred C. Cen_HK
dc.contributor.inventorShen, Peikangen_HK
dc.contributor.inventorYou, Jinkuaen_HK
patents.identifier.applicationDE 20016019770Ten_HK
patents.description.assigneeUNIV HONG KONG [HK]en_HK
patents.description.countryGermanyen_HK
patents.date.publication2007-04-26en_HK
patents.date.application2001-12-13en_HK
patents.date.priority2000-12-14 US 09/255608Pen_HK
patents.date.priority2001-12-13 PCT/CN2001001619en_HK
patents.description.ccDEen_HK
patents.identifier.publicationDE 60119770en_HK
patents.relation.familyCN 1416364 (A) 2003-05-07en_HK
patents.relation.familyCN 1229176 (C) 2005-11-30en_HK
patents.relation.familyDE 60119770 (T2) 2007-04-26en_HK
patents.relation.familyEP 1341603 (A1) 2003-09-10en_HK
patents.relation.familyHK 1057505 (A1) 2006-08-11en_HK
patents.relation.familyUS 2002125146 (A1) 2002-09-12en_HK
patents.relation.familyUS 7419580 (B2) 2008-09-02en_HK
patents.relation.familyWO 0247806 (A1) 2002-06-20en_HK
patents.description.kindT2en_HK
patents.typePatent_publisheden_HK

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