Invention Grant
- Patent Title: Catalyst and manufacturing method thereof
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Application No.: US15493288Application Date: 2017-04-21
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Publication No.: US11332834B2Publication Date: 2022-05-17
- Inventor: Ki-Tae Nam , Kyoung-Suk Jin , Dong-Hyuk Jeong , Sung-Eun Jerng
- Applicant: SEOUL NATIONAL UNIVERSITY R&DB FOUNDATION , GLOBAL FRONTIER CENTER FOR MULTISCALE ENERGY SYSTEMS
- Applicant Address: KR Seoul; KR Seoul
- Assignee: SEOUL NATIONAL UNIVERSITY R&DB FOUNDATION,GLOBAL FRONTIER CENTER FOR MULTISCALE ENERGY SYSTEMS
- Current Assignee: SEOUL NATIONAL UNIVERSITY R&DB FOUNDATION,GLOBAL FRONTIER CENTER FOR MULTISCALE ENERGY SYSTEMS
- Current Assignee Address: KR Seoul; KR Seoul
- Agency: Mayer & Williams PC
- Agent Stuart H. Mayer
- Priority: KR10-2014-0142622 20141021,KR10-2015-0148851 20151026,KR10-2016-0138616 20161024,KR10-2016-0156837 20161123,KR10-2017-0025665 20170227,KR10-2017-0045300 20170407
- Main IPC: C25B11/04
- IPC: C25B11/04 ; H01M4/86 ; C25B11/091 ; C25B1/04 ; H01M4/90 ; H01M8/12
Abstract:
The present invention relates to a catalyst and a manufacturing method thereof, the catalyst is characterized that a distance between a transition metal of a transition metal oxide nanoparticle and oxygen is controlled by substituting at least a part of surface of the transition metal oxide nanoparticle with an inclusion.
Public/Granted literature
- US20170283965A1 CATALYST AND MANUFACTURING METHOD THEREOF Public/Granted day:2017-10-05
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