R
Renzong Hu
Researcher at South China University of Technology
Publications - 174
Citations - 10206
Renzong Hu is an academic researcher from South China University of Technology. The author has contributed to research in topics: Anode & Lithium. The author has an hindex of 46, co-authored 145 publications receiving 7091 citations. Previous affiliations of Renzong Hu include Guangzhou Higher Education Mega Center & Georgia Institute of Technology.
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Journal ArticleDOI
Zn/MnO2 Battery Chemistry With H+ and Zn2+ Coinsertion
Wei Sun,Fei Wang,Singyuk Hou,Chongyin Yang,Xiulin Fan,Zhaohui Ma,Tao Gao,Fudong Han,Renzong Hu,Min Zhu,Chunsheng Wang +10 more
TL;DR: Electrochemical and structural analysis identify that the MnO2 cathode experience a consequent H+ and Zn2+ insertion/extraction process with high reversibility and cycling stability, which is the first report on rechargeable aqueous batteries with a consequents ion-insertion reaction mechanism.
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A General Metal-Organic Framework (MOF)-Derived Selenidation Strategy for In Situ Carbon-Encapsulated Metal Selenides as High-Rate Anodes for Na-Ion Batteries
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New Nanoconfined Galvanic Replacement Synthesis of Hollow Sb@C Yolk–Shell Spheres Constituting a Stable Anode for High-Rate Li/Na-Ion Batteries
Jun Liu,Litao Yu,Chao Wu,Yuren Wen,Kuibo Yin,Fu-Kuo Chiang,Renzong Hu,Jiangwen Liu,Litao Sun,Lin Gu,Joachim Maier,Yan Yu,Yan Yu,Min Zhu +13 more
TL;DR: A novel Sb@C nanosphere anode with biomimetic yolk-shell structure for Li/Na-ion batteries via a nanoconfined galvanic replacement route and maintains a reversible capacity of approximate 280 mAh g-1 at 1000 mA g- 1 after 200 cycles.
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Nanoscale Surface Modification of Lithium-Rich Layered-Oxide Composite Cathodes for Suppressing Voltage Fade.
Fenghua Zheng,Chenghao Yang,Xunhui Xiong,Jiawen Xiong,Renzong Hu,Yu Chen,Meilin Liu,Meilin Liu +7 more
TL;DR: The nanoscale LFP layers incorporated into the LL MO surfaces can effectively maintain the lithium-ion and charge transport channels, and the LLMO-LFP5 cathode demonstrated an excellent rate capacity.
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Ultrathin N-Doped Mo2C Nanosheets with Exposed Active Sites as Efficient Electrocatalyst for Hydrogen Evolution Reactions
Jin Jia,Tanli Xiong,Lili Zhao,Fulei Wang,Hong Liu,Renzong Hu,Jian Zhou,Weijia Zhou,Shaowei Chen,Shaowei Chen +9 more
TL;DR: Detailed electrochemical investigations andoretical calculations demonstrate that the nanosheet structure, N doping, and particular crystalline phase of Mo2C produce more exposed Mo active sites, including Mo atoms on the C plane and doped N atoms, which will facilitate the understanding and optimization of Mo-based electrocatalysts in the energy conversion field.