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Cho, Jaephil
Nano Energy Storage Materials Lab (NESM)
Research Interests
  • Li-ion battery, metal-air battery, redox-flow battery, flexible battery .


Material design and surface chemistry for advanced rechargeable zinc-air batteries

DC Field Value Language Lee, Soobeom ko Choi, Jinyeong ko Kim, Minsoo ko Park, Jihan ko Park, Minjoon ko Cho, Jaephil ko 2022-05-27T02:15:06Z - 2022-05-19 ko 2022-06 ko
dc.identifier.citation CHEMICAL SCIENCE, v.13, no.21, pp.6159 - 6180 ko
dc.identifier.issn 2041-6520 ko
dc.identifier.uri -
dc.description.abstract Zinc-air batteries (ZABs) have been considered as a next-generation battery system with high energy density and abundant resources. However, the sluggish multi-step reaction of the oxygen is the main obstacle for the practical application of ZABs. Therefore, bifunctional electrocatalysts with high stability and activity for the oxygen reduction reaction (ORR) and the oxygen evolution reaction (OER) are greatly required to promote the catalytic reaction. In this review, we first explain the reaction mechanism of the ZABs, mainly focusing on multiple oxygen intermediates. Then, the latest studies on bifunctional electrocatalysts for the air cathodes and their progress of the ZABs are discussed with following aspects: platinum group metal, metal-free, transition metal, and metal compound-derived electrocatalysts. Finally, we highlight the advanced ZAB systems with the design of the full-temperature range operation, the all-solid-state, and the newly reported non-alkaline electrolyte, summarizing the remaining challenges and requirements of the future research directions. ko
dc.language 영어 ko
dc.publisher ROYAL SOC CHEMISTRY ko
dc.title Material design and surface chemistry for advanced rechargeable zinc-air batteries ko
dc.type ARTICLE ko
dc.identifier.scopusid 2-s2.0-85132848259 ko
dc.identifier.wosid 000792422000001 ko
dc.type.rims ART ko
dc.identifier.doi 10.1039/d1sc07212a ko
dc.identifier.url ko
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