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作 者:Song Jin Seung Min Woo Shin-Woo Myeong Sungjun Heo Jaehun Lee Nam In Kim Chiho Kim Jooyoung Lee Sung Mook Choi Min Ho Seo
机构地区:[1]Energy&Environment Materials Research Division,Korea Institute of Materials Science(KIMS),Changwon,Gyeongnam 51508 [2]School of Materials Science and Engineering,Gwangju Institute of Science and Technology(GIST),Gwangju 500-712 [3]Department of Nanotechnology Engineering,Pukyong National University,Nam-gu,Busan 48547 [4]School of Materials Science and Engineering,Ulsan National Institute of Science and Technology(UNIST),Ulsan [5]Advanced Materials Engineering,University of Science and Technology(UST),Yuseong-gu,Daejeon 34113 [6]Department of Materials Science and Engineering,Pusan National University,Busan 46241
出 处:《Renewables》2024年第6期376-404,共29页可再生能源(英文)
基 金:funded by the Fundamental Research Program of the Korean Institute of Materials Science(grant no.PNK7550);was also supported by the Nano&Material Technology Development Program through the National Research Foundation of Korea(NRF)funded by the Ministry of Science and ICT(grant no.RS-2024-00409675)in the Republic of Korea;this work was supported by the NRF grant funded by the Korea government(MSIT)(grant no.RS-2024-00467234).
摘 要:Structurally ordered intermetallic electrocatalysts are attractive approaches to improve durability and electrocatalysis by altering their intrinsic properties in various energy-related applications based on electrochemistry.This review highlights recent progress in the structural design of platinumgroup-metal(PGM)and non-PGM metal electrocatalysts under acidic and alkaline conditions,targeting key reactions such as the hydrogen evolution reaction,hydrogen oxidation reaction,oxygen evolution reaction,and oxygen reduction reaction,particularly in applications involving polymer electrolyte membrane fuel cells and anion exchange membrane water electrolzyer.Moreover,this review highlights that the representatively selected studies are included in this review to provide an overview of fundamental reaction mechanisms and electrocatalytic properties.We believe that this comprehensive research review contributes to a better understanding and promotes the advancement of the highly active and durable intermetallic ordered electrocatalyst.
关 键 词:INTERMETALLIC NANOPARTICLES hydrogen evolution reaction hydrogen oxidation reaction oxygen evolution reaction oxygen reduction reaction
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