H
Hongbin Chen
Researcher at South China University of Technology
Publications - 19
Citations - 2152
Hongbin Chen is an academic researcher from South China University of Technology. The author has contributed to research in topics: Anode & Electrode. The author has an hindex of 16, co-authored 16 publications receiving 1616 citations.
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Journal ArticleDOI
A Two-Dimensional Lamellar Membrane: MXene Nanosheet Stacks
TL;DR: The water permeance through the MXene membrane is much higher than that of the most membranes with similar rejections, and long-time operation reveals the outstanding stability of theMXene membrane for water purification.
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Freestanding, Hydrophilic Nitrogen-Doped Carbon Foams for Highly Compressible All Solid-State Supercapacitors.
TL;DR: Based on NCF electrodes, a high-performance all solid-state symmetric supercapacitor device is fabricated with native, full compressibility, and excellent mechanical stability, addressing two major problems in the current technology.
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Graphene-based nitrogen-doped carbon sandwich nanosheets: a new capacitive process controlled anode material for high-performance sodium-ion batteries
Dongdong Li,Dongdong Li,Lei Zhang,Lei Zhang,Hongbin Chen,Jun Wang,Liang-Xin Ding,Suqing Wang,Peter J. Ashman,Haihui Wang,Haihui Wang +10 more
TL;DR: In this paper, a new CCS anode material of graphene-based nitrogen-doped carbon sandwich nanosheets (G-NCs) was reported for the development of high-performance sodium-ion batteries.
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Porous nitrogen doped carbon sphere as high performance anode of sodium-ion battery
Dongdong Li,Hongbin Chen,Guoxue Liu,Meng Wei,Liang-Xin Ding,Suqing Wang,Haihui Wang,Haihui Wang +7 more
TL;DR: In this article, the porous structure is successfully fabricated in nitrogen doped carbon spheres (N-CS) via the mature template-assisted method and the sodium storage property of the porous nitrogen-doped carbon sphere and N-CS is investigated.
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Hierarchical Mesoporous/Macroporous Perovskite La0.5Sr0.5CoO3-x Nanotubes: A Bifunctional Catalyst with Enhanced Activity and Cycle Stability for Rechargeable Lithium Oxygen Batteries.
Guoxue Liu,Hongbin Chen,Lu Xia,Suqing Wang,Liang-Xin Ding,Dongdong Li,Dongdong Li,Kang Xiao,Sheng Dai,Haihui Wang,Haihui Wang +10 more
TL;DR: The synergy of high catalytic activity and hierarchical mesoporous/macroporous nanostructured perovskite-type catalysts results in the Li-O2 batteries with good rate capability and excellent cycle stability.