Journal
JOURNAL OF MATERIALS CHEMISTRY A
Volume 7, Issue 27, Pages 16330-16338Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c9ta04798k
Keywords
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Funding
- National Science Foundation of China [51872249]
- CityU Applied Research Grant [ARG 9667183]
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Aqueous rechargeable zinc ion batteries with advantages of low cost and high level of safety have been considered as a promising candidate for large-scale energy storage. In this work, a freestanding, binder-free cathode comprising hierarchical VS2 in the 1T phase grown directly on a stainless steel mesh (VS2@SS) was developed for aqueous zinc ion batteries. The battery exhibited an excellent Zn ion storage capacity of 198 mA h g(-1) and stable cycling performance (above 80% capacity retention over 2000 cycles at 2 A g(-1)). The detailed structural and chemical composition analyses revealed the phase evolution of VS2 and the reversible Zn ion insertion/extraction mechanism during the charge/discharge process. Notably, with an increased mass loading of VS2 over the commercial level (similar to 11 mg cm(-2)), a long-term cycling stability with 90% capacity retention after 600 cycles (only 0.017% loss per cycle) could be achieved, which suggests that the electrodes are promising for practical applications. Furthermore, flexible solid-state Zn ion batteries were demonstrated by using the VS2@SS electrodes, and reliable electrochemical performance could be observed even after 200 cycles.
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