A Perspective on the Requirements of Ni‐rich Cathode Surface Modifications for Application in Lithium‐ion Batteries and All‐Solid‐State Lithium‐ion Batteries

Dr. Jae Hong Choi; Dr. Tom James Embleton; Kyungmok Ko; Prof. Haeseong Jang; Prof. Yoonkook Son; Prof. Joohyuk Park; Prof. Songyi Lee; Prof. Pilgun Oh

doi:10.1002/celc.202300705

ChemElectroChem (Mar 2024)

A Perspective on the Requirements of Ni‐rich Cathode Surface Modifications for Application in Lithium‐ion Batteries and All‐Solid‐State Lithium‐ion Batteries

Dr. Jae Hong Choi,
Dr. Tom James Embleton,
Kyungmok Ko,
Prof. Haeseong Jang,
Prof. Yoonkook Son,
Prof. Joohyuk Park,
Prof. Songyi Lee,
Prof. Pilgun Oh

Affiliations

Dr. Jae Hong Choi: Department of Smart Green Technology Engineering Pukyong National University Busan 48547 Republic of Korea
Dr. Tom James Embleton: Department of Smart Green Technology Engineering Pukyong National University Busan 48547 Republic of Korea
Kyungmok Ko: Department of Smart Green Technology Engineering Pukyong National University Busan 48547 Republic of Korea
Prof. Haeseong Jang: Department of Advanced Materials Engineering Chung-Ang University Seoul South Korea
Prof. Yoonkook Son: Department of Electrical Engineering Chosun University 309, Pilmun-daero, Dong-gu Gwangju 61452 Republic of Korea
Prof. Joohyuk Park: Department of Advanced Materials Engineering Keimyung University 1095 Dalgubeol-daero, Dalseo-gu Daegu 42601 Republic of Korea
Prof. Songyi Lee: Department of Chemistry and Industry 4.0 Convergence Bionics Engineering Pukyong National University Busan 48513 Republic of Korea
Prof. Pilgun Oh: Department of Smart Green Technology Engineering Pukyong National University Busan 48547 Republic of Korea

DOI: https://doi.org/10.1002/celc.202300705
Journal volume & issue: Vol. 11, no. 5
pp. n/a – n/a

Abstract

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Abstract The increasing adoption of Ni‐rich cathode active materials in commercial liquid electrolyte Lithium‐ion batteries (LIBs) is testament to the improvements in the cathode stability through various surface modification strategies. The development of a deeper understanding of the cathode/electrolyte interface in LIBs has resulted in coatings capable of mitigating both surface and bulk cathode degradation mechanisms. However, due to increasing demands for safe and high energy density cells, a large portion of the research has now shifted towards applying Ni‐rich cathode active materials in inherently safer all‐solid‐state Lithium‐ion batteries (ASSLBs), with the resulting cathode surface modification strategies evolving differently. In this regard, a review outlining the surface modification strategies of Ni‐rich cathode materials applied in both LIB and ASSLB systems is provided. Within, a review of the traditional, advanced and specialized surface modification strategies of each system is discussed, along with a final perspective on the likely future direction of research regarding the design of system‐specific Ni‐rich cathode‐based surface modification strategies.

Published in ChemElectroChem

ISSN: 2196-0216 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Chemical technology: Industrial electrochemistry; Science: Chemistry
Website: https://chemistry-europe.onlinelibrary.wiley.com/journal/21960216

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