H
Haobing Zhang
Researcher at China University of Petroleum
Publications - 14
Citations - 716
Haobing Zhang is an academic researcher from China University of Petroleum. The author has contributed to research in topics: Supercapacitor & Electrode. The author has an hindex of 9, co-authored 14 publications receiving 313 citations.
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Recent progress in metal-organic framework-based supercapacitor electrode materials
TL;DR: In this paper, a review of metal-organic frameworks (MOFs) for supercapacitor electrode applications is presented, in which the recyclable MOF-hydrolyzing strategy is introduced, during which the organic ligands can be recollected to drastically reduce the costs.
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Bimetallic-MOF Derived Accordion-like Ternary Composite for High-Performance Supercapacitors.
Hao Mei,Yingjie Mei,Shiyu Zhang,Zhenyu Xiao,Ben Xu,Haobing Zhang,Lili Fan,Zhaodi Huang,Wenpei Kang,Daofeng Sun +9 more
TL;DR: A bimetallic Co/Ni MOF is used as a sacrificial template through an alkaline hydrolysis and selective oxidation process to prepare an accordion-like ternary NiCo2O4/β-Ni xCo1- x(OH)2/α-Ni
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Temperature controlled diffusion of hydroxide ions in 1D channels of Ni-MOF-74 for its complete conformal hydrolysis to hierarchical Ni(OH)2 supercapacitor electrodes
Shiyu Zhang,Zhendong Yang,Ke Gong,Ben Xu,Hao Mei,Haobing Zhang,Jiaxin Zhang,Zixi Kang,Youguo Yan,Daofeng Sun +9 more
TL;DR: Detailed analyses based on CV and EIS of the obtained Ni(OH)2 electrodes indicate that the residual MOFs within electrodes due to incomplete hydrolysis significantly influence the diffusion length and diffusion efficiency of OH-, drastically lowering the supercapacitor performances.
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Self-assembly of MOF on MXene nanosheets and in-situ conversion into superior nickel phosphates/MXene battery-type electrode
TL;DR: In this article, the Ni-MOF amorphous nanospheres on MXene nanosheets, which provide rich nucleation sites for MOF growth, are subsequently in-situ conversed into hierarchically porous nickel phosphate nanosphere through the top-down etching.
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Accurately Regulating the Electronic Structure of NixSey@NC Core–Shell Nanohybrids through Controllable Selenization of a Ni‐MOF for pH‐Universal Hydrogen Evolution Reaction
Zhaodi Huang,Ben Xu,Ben Xu,Zongge Li,Jianwei Ren,Hao Mei,Zhanning Liu,Donggang Xie,Haobing Zhang,Fangna Dai,Rongming Wang,Daofeng Sun +11 more
TL;DR: A series of pomegranate-like Nix Sey @NC core-shell nanohybrids through controllable selenization of a Ni-MOF precursor is reported, which exhibits the optimum pH-universal HER performance with overpotentials of 131, 135, and 183 mV in 0.5 m H2 SO4, KOH, and 1.0 m PBS.