Published Patent: METHODS AND APPARATUS FOR THE OXIDATION OF GLUCOSE MOLECULES

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Application
EP20010270380
2001-12-13
Publication
EP 1341603
2003-09-10
Granted
1341603
2006-05-17

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Title	METHODS AND APPARATUS FOR THE OXIDATION OF GLUCOSE MOLECULES
Granted Patent	1341603
Granted Date	2006-05-17
Priority Date	2001-12-13 PCT/CN2001001619 2000-12-14 US 09/255608P
Inventors	CHAN, KWOK-YU, ZHANG, XIN, LAM, CHUNG MAN, TSEUNG, ALFRED C. C, SHEN, PEIKANG, YOU, JINKUA
Citation	EP Published Patent application EP 1341603. European Patent Office (EPO), Escapenet, 2003 [How to Cite?]
Abstract	A 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.
References	US 4118294 (A) 1978-10-03 US 4552857 (A) 1985-11-12 WO 9964352 (A1) 1999-12-16 EP 0979673 (A1) 2000-02-16 EP 0979673 (B1) 2008-01-02 JP 62237947 (A) 1987-10-17 CN 1247909 (A) 2000-03-22 US 5660940 (A) 1997-08-26 US 5976719 (A) 1999-11-02 US 4294891 (A) 1981-10-13 JP 3036443 (B2) 2000-04-24 JP 10160700 (A) 1998-06-19 US 4867909 (A) 1989-09-19

DC Field	Value
dc.contributor.inventor	CHAN, KWOK-YU,
dc.contributor.inventor	ZHANG, XIN,
dc.contributor.inventor	LAM, CHUNG MAN,
dc.contributor.inventor	TSEUNG, ALFRED C. C,
dc.contributor.inventor	SHEN, PEIKANG,
dc.contributor.inventor	YOU, JINKUA
dc.date.accessioned	2011-10-19T06:29:31Z
patents.date.application	2001-12-13
dc.date.available	2011-10-19T06:29:31Z
patents.date.granted	2006-05-17
patents.date.priority	2001-12-13 PCT/CN2001001619
patents.date.priority	2000-12-14 US 09/255608P
patents.date.publication	2003-09-10
dc.description.abstract	A 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.
patents.description.assignee	UNIV HONG KONG [CN]
patents.description.cc	EP
patents.description.country	European Patent Office
patents.description.kind	A1
patents.identifier.application	EP20010270380
dc.identifier.citation	EP Published Patent application EP 1341603. European Patent Office (EPO), Escapenet, 2003 [How to Cite?]
patents.identifier.granted	1341603
patents.identifier.hkutechid	Chm-2000-00038
patents.identifier.publication	EP 1341603
dc.identifier.uri	http://hdl.handle.net/10722/142080
patents.relation.family	CN 1416364 (A) 2003-05-07
patents.relation.family	CN 1229176 (C) 2005-11-30
patents.relation.family	DE 60119770 (T2) 2007-04-26
patents.relation.family	HK 1057505 (A1) 2006-08-11
patents.relation.family	US 2002125146 (A1) 2002-09-12
patents.relation.family	US 7419580 (B2) 2008-09-02
patents.relation.family	WO 0247806 (A1) 2002-06-20
dc.relation.references	US 4118294 (A) 1978-10-03
dc.relation.references	US 4552857 (A) 1985-11-12
dc.relation.references	WO 9964352 (A1) 1999-12-16
dc.relation.references	EP 0979673 (A1) 2000-02-16
dc.relation.references	EP 0979673 (B1) 2008-01-02
dc.relation.references	JP 62237947 (A) 1987-10-17
dc.relation.references	CN 1247909 (A) 2000-03-22
dc.relation.references	US 5660940 (A) 1997-08-26
dc.relation.references	US 5976719 (A) 1999-11-02
dc.relation.references	US 4294891 (A) 1981-10-13
dc.relation.references	JP 3036443 (B2) 2000-04-24
dc.relation.references	JP 10160700 (A) 1998-06-19
dc.relation.references	US 4867909 (A) 1989-09-19
dc.rights	Creative Commons: Attribution 3.0 Hong Kong License For Public Patent Documents
dc.title	METHODS AND APPARATUS FOR THE OXIDATION OF GLUCOSE MOLECULES
dc.type	Patent
patents.type	Patent_published

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