Relaxation of the Jahn–Teller stress effect in the P3-type K0.5MnO2 cathode by copper and magnesium co-substitution for high-performance K-ion batteriesRelaxation of the Jahn-Teller stress effect in the P3-type K0.5MnO2 cathode by copper and magnesium co-substitution for high-performance K-ion batteries
- Other Titles
- Relaxation of the Jahn-Teller stress effect in the P3-type K0.5MnO2 cathode by copper and magnesium co-substitution for high-performance K-ion batteries
- Authors
- Oh, Yunjae; Lee, Hoseok; Oh, Gwangeon; Ryu, Seongje; Kim, Un-Hyuck; Jung, Hun-Gi; Kim, Jongsoon; Hwang, Jang-Yeon
- Issue Date
- Feb-2025
- Publisher
- Elsevier BV
- Keywords
- Cathode materials; Co-substitution; High energy; Jahn–Teller distortion; K-ion batteries
- Citation
- Journal of Power Sources, v.628, pp 1 - 11
- Pages
- 11
- Indexed
- SCIE
SCOPUS
- Journal Title
- Journal of Power Sources
- Volume
- 628
- Start Page
- 1
- End Page
- 11
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/207877
- DOI
- 10.1016/j.jpowsour.2024.235786
- ISSN
- 0378-7753
1873-2755
- Abstract
- The Mn-based P3-type layered oxide (K0.5MnO2) is a promising cathode material for K-ion batteries (KIBs) because of its low cost, high specific capacity, and simple synthesis. However, it suffers from severe capacity loss and sluggish K+ diffusion kinetics, which are mainly attributed to multiple phase transitions and the Jahn–Teller distortion of Mn3+. To address these challenges, herein, the Mg and Cu co-substitution strategy is proposed to synthesize the P3-type K0.5Mn0.8Mg0.1Cu0.1O2 (P3-KMMCO) as a cathode for KIBs. The presence of divalent Mg2+ and Cu2+ in the crystal structure of P3-KMMCO play the critical functions in regulating the Jahn–Teller-active Mn3+, thereby suppressing the complex phase transitions and improving the K+ diffusion kinetics during charging and discharging. As a result, the P3-KMMCO cathode demonstrates the high reversible capacity, outstanding cycling stability and power capability. A combination study of synchrotron-based X-ray analysis and first-principles calculations is used to validate the enhanced electrochemical K+ storage properties of the P3-KMMCO cathode.
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