Ren Hao Xu scite author profile

Ren Hao Xu

3Publications

23Citation Statements Received

101Citation Statements Given

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100

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Zhejiang Sci-Tech University

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Dual-Phase Coexistence Design and Advanced Electrochemical Performance of Cu₂MoS₄ Electrode Materials for Supercapacitor Application

Pian

Liu

et al. 2023

Energy Fuels

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The tetragonal layered transition metal copper−molybdenum sulfide Cu 2 MoS 4 (CMS) possesses a high theoretical electrochemical potential because of its abundant redox properties and large layered surface area, which is favorable for ion adsorption/desorption and transport. Cu 2 MoS 4 contains P and I phases, exhibiting different crystal structures, ion transport characteristics, and electrochemical properties accordingly. In this work, for the first time, Cu 2 MoS 4 electrode materials with dual-phase compositions are designed and prepared for supercapacitor application, providing a synergistic effect with high electron transport efficiency and structural stability. Upon an in-depth optimization process, the optimal CMS-4 sample having P and I phases coexisting yields the optimal electrochemical behavior. The CMS-4@carbon cloth (CC) electrode provides a specific capacity of 33.9 mAh g −1 at 1 A g −1 , which is 12.6 and 4.0 times higher than the pure P and I phases, respectively. The assembled MnO 2 @CC//CMS-4@CC supercapacitor exhibits a high energy density of 16.8 Wh kg −1 at 800 W kg −1 power density. The results demonstrate that two-phase coexistence of Cu 2 MoS 4 significantly enhances the electrochemical activities owing to the synergistic effects of P and I phases and provides a promising material for supercapacitor negative electrodes.

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Perovskite SrCo1-Ti O3-δ as anion-intercalated electrode materials for supercapacitors

Liu

Pian

Qiao

et al. 2022

Journal of Energy Storage

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Cerebroprotein Hydrolysate is Involved in Promoting Long-Term Angiogenesis, Vessel Diameter and Density after Cerebral Ischemia in Mice

Myagmar¹,

Zhang

Chen³

et al. 2022

SSRN Journal

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Ren Hao Xu

Dual-Phase Coexistence Design and Advanced Electrochemical Performance of Cu₂MoS₄ Electrode Materials for Supercapacitor Application

Perovskite SrCo1-Ti O3-δ as anion-intercalated electrode materials for supercapacitors

Cerebroprotein Hydrolysate is Involved in Promoting Long-Term Angiogenesis, Vessel Diameter and Density after Cerebral Ischemia in Mice

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Ren Hao Xu

Dual-Phase Coexistence Design and Advanced Electrochemical Performance of Cu2MoS4 Electrode Materials for Supercapacitor Application

Perovskite SrCo1-Ti O3-δ as anion-intercalated electrode materials for supercapacitors

Cerebroprotein Hydrolysate is Involved in Promoting Long-Term Angiogenesis, Vessel Diameter and Density after Cerebral Ischemia in Mice

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Dual-Phase Coexistence Design and Advanced Electrochemical Performance of Cu₂MoS₄ Electrode Materials for Supercapacitor Application