Defect engineering via the F-doping of beta-MnO2 cathode to design hierarchical spheres of interlaced nanosheets for superior high-rate aqueous zinc ion batteries
- Authors
- Kim, Seoyeong; Koo, Bon-Ryul; Jo, Yong-Ryun; An, Ha-Rim; Lee, Young-Geun; Huang, Chun; An, Geon-Hyoung
- Issue Date
- Aug-2021
- Publisher
- Royal Society of Chemistry
- Citation
- Journal of Materials Chemistry A, v.9, no.32, pp 17211 - 17222
- Pages
- 12
- Indexed
- SCIE
SCOPUS
- Journal Title
- Journal of Materials Chemistry A
- Volume
- 9
- Number
- 32
- Start Page
- 17211
- End Page
- 17222
- URI
- https://scholarworks.gnu.ac.kr/handle/sw.gnu/3363
- DOI
- 10.1039/d1ta04051k
- ISSN
- 2050-7488
2050-7496
- Abstract
- The rechargeable aqueous Zn ion battery (ZIB) is a promising candidate for next-generation energy storage technology due to its low cost, low flammability, inherent safety, and high theoretical capacity. Nevertheless, the beta-MnO2 cathode material continues to be limited by inactive ion insertion and transport kinetics due to a relatively narrow tunneling pathway, thus leading to low capacity and rate capabilities. Hence, to achieve a high-performance ZIB, the presence of lattice and defect structures in the beta-MnO2 is required to promote the electrochemical reactions. Herein, for the first time, a beta-MnO2 cathode with a hierarchical structure consisting of spheres of interlaced nanosheets is introduced via efficient defect engineering using fluorine (F)-doping and oxygen vacancies, thus leading to improved ion insertion and transport kinetics along with an enhanced electrical conductivity. The ZIB is shown to exhibit a high energy density (288 W h kg(-1) at a power density of 90 W kg(-1)), a superior high-rate performance (energy density of 158 W h kg(-1) at a power density of 1800 W kg(-1)), and a capacity retention (85% after up to 150 cycles). These results highlight the potential of defect-engineered cathode materials for the enhanced electrochemical performance of rechargeable aqueous batteries.
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