Zhuoxun Li scite author profile

Zhuoxun Li

2Publications

8Citation Statements Received

99Citation Statements Given

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Wuhan Institute of Technology

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Growth of Flower-like MnO₂ on Porous ZIF-67 for Achieving Enhanced Supercapacitive Properties

Tao

Zhou

et al. 2022

Energy Fuels

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Zeolitic imidazolate framework (ZIF)-supported flower-like porous MnO 2 (ST@ZIF-67/MnO 2 ) was fabricated through SiO 2 -guided preparation of the ZIF precursor and subsequent in situ synthesis and deposition of MnO 2 . The specific porous structure can effectively shorten the ion transport channels, expose more active sites, and improve the tolerance toward volume expansion during the cyclic process, thus resulting in enhanced supercapacitive properties. Typically, the ST@ZIF-67/MnO 2 -based electrode delivered a high specific capacitance of 278.6 F g −1 at 0.5 A g −1 , which is almost 10 times that of pristine ZIF-67 and 1.5 times that of the composite without using the SiO 2 template (ZIF-67/MnO 2 ). Additionally, the electrode showed good electrochemical cycling stability with 80.3% retention after 10, 000 cycles at 10 A g −1 . Our strategy of growing porous transition metal oxides on ZIFs provides a viable pathway for developing efficient electrode materials for energy storage devices.

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Enhanced supercapacitive performance of polyacrylonitrile derived hierarchical porous carbon via hybridizing with MoS2 nanosheets

Wang

Qin

Tao

et al. 2021

Journal of Energy Storage

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Zhuoxun Li

Growth of Flower-like MnO₂ on Porous ZIF-67 for Achieving Enhanced Supercapacitive Properties

Enhanced supercapacitive performance of polyacrylonitrile derived hierarchical porous carbon via hybridizing with MoS2 nanosheets

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Zhuoxun Li

Growth of Flower-like MnO2 on Porous ZIF-67 for Achieving Enhanced Supercapacitive Properties

Enhanced supercapacitive performance of polyacrylonitrile derived hierarchical porous carbon via hybridizing with MoS2 nanosheets

Contact Info

Product

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Growth of Flower-like MnO₂ on Porous ZIF-67 for Achieving Enhanced Supercapacitive Properties