발간논문

Home > KJMM 논문 > 발간논문

Vol.61, No.12, 923 ~ 933, 2023
Title
Alleviating Mn3+ Dissolution in ZnMn2O4 Cathode for the Extended Cyclability via Particle Size Increase
박재영 Jae Young Park , 최영묵 Young Mook Choi , 전상은 Sang-eun Chun
Abstract
ZnMn2O4 (ZMO) cathode possesses a high theoretical capacity of 224 mAh g-1 and high operating voltage (1.9 V vs. Zn2+/Zn) for aqueous Zn-ion batteries. However, the disproportionation reaction of Mn3+ leads to Mn dissolution in the ZMO cathode, deteriorating lifespan. In this study, we attempted to reduce Mn dissolution by enlarging the particle size, thereby diminishing the electrode/electrolyte interfacial area. The ZMO particle grew with increasing the calcination temperatures of 400℃, 500℃, and 600℃. Higher calcination temperature created oxygen vacancies within the lattice, thereby increasing the contents of Mn3+ for charge neutrality. The rate capability decreased with the increase in particle size, which is presumed to be due to the lengthening of the diffusion path of Zn ions. After a long-cycle experiment of Zn-ion batteries assembled with ZMO cathode and Zn anode, the Mn deposit amount on the anode was measured to reveal the Mn dissolution from the ZMO cathode based on the disproportionation reaction. The ZMO particle synthesized at 600℃ with the largest particle size demonstrated the highest cyclability of 48.1% at 1.0 A g-1 based on the lowest Mn deposit on the anode. Hence, the ZMO electrode with a larger particle size exhibited improved cycle stability by alleviating of the disproportionation reaction from the reduced electrode/electrolyte interfacial area. (Received 26 July, 2023; Accepted 21 September, 2023)
Key Words
Zinc-ion battery, ZnMn2O4, Mn dissolution, Particle size, Cycle stability
| PDF
대한금속∙재료학회 (06633) 서울시 서초구 서초대로 56길 38 대한금속∙재료학회 회관 (서초1동 1666-12번지)
Tel : 070-4266-1646 FAX : 02-557-1080 E-mail : metal@kim.or.kr
Copyright ⓒ 2013 사단법인 대한금속∙재료학회 All rights reserved.