The patent badge is an abbreviated version of the USPTO patent document. The patent badge does contain a link to the full patent document.
The patent badge is an abbreviated version of the USPTO patent document. The patent badge covers the following: Patent number, Date patent was issued, Date patent was filed, Title of the patent, Applicant, Inventor, Assignee, Attorney firm, Primary examiner, Assistant examiner, CPCs, and Abstract. The patent badge does contain a link to the full patent document (in Adobe Acrobat format, aka pdf). To download or print any patent click here.
Patent No.:
Date of Patent:
Oct. 05, 2021
Filed:
Oct. 22, 2018
Applicant:
Uxn Co., Ltd., Seoul, KR;
Inventors:
Assignee:
UXN Co. Ltd., Seoul, KR;
Attorney:
Primary Examiner:
Assistant Examiner:
Int. Cl.
CPC ...
A61B 5/1486 (2006.01); A61B 5/145 (2006.01); A61B 5/1473 (2006.01); A61B 5/00 (2006.01); C09D 5/02 (2006.01); B01J 13/00 (2006.01); C09D 5/24 (2006.01); C09D 7/40 (2018.01); G01N 33/49 (2006.01); B05D 5/00 (2006.01); B05D 5/02 (2006.01); G01N 27/327 (2006.01); G01N 27/416 (2006.01); G01N 27/333 (2006.01); C12Q 1/00 (2006.01); B82Y 15/00 (2011.01); B82Y 40/00 (2011.01); B82Y 30/00 (2011.01); G01N 33/66 (2006.01);
U.S. Cl.
CPC ...
A61B 5/14865 (2013.01); A61B 5/0031 (2013.01); A61B 5/1473 (2013.01); A61B 5/14532 (2013.01); A61B 5/72 (2013.01); A61B 5/742 (2013.01); B01J 13/0013 (2013.01); B05D 5/00 (2013.01); B05D 5/02 (2013.01); C09D 5/028 (2013.01); C09D 5/24 (2013.01); C09D 7/67 (2018.01); C12Q 1/006 (2013.01); G01N 27/327 (2013.01); G01N 27/3271 (2013.01); G01N 27/3335 (2013.01); G01N 27/4168 (2013.01); G01N 33/49 (2013.01); A61B 5/1486 (2013.01); A61B 2560/0475 (2013.01); A61B 2562/0285 (2013.01); A61B 2562/125 (2013.01); B82Y 15/00 (2013.01); B82Y 30/00 (2013.01); B82Y 40/00 (2013.01); G01N 33/66 (2013.01); G01N 2400/00 (2013.01); Y10S 977/773 (2013.01); Y10S 977/81 (2013.01); Y10S 977/896 (2013.01); Y10S 977/92 (2013.01);
Abstract
This disclosure relates to a glucose-sensing electrode including a nanoporous metal layer and a maltose-blocking layer formed over the nanoporous metal layer. The nanoporous metal layer is capable of oxidizing both glucose and maltose without an enzyme specific to glucose or maltose in the glucose-sensing electrode. The maltose-blocking layer has porosity that permits glucose to pass therethrough and inhibits maltose from passing therethrough toward the nanoporous metal layer.