Bing Sun
11 Papers
2 Citations
Bing Sun is an academic researcher. The author has contributed to research in topics: Chemistry & Lithium (medication). The author has an hindex of 2, co-authored 8 publications.
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Papers
Overall Water Splitting on The NiS/NiS2 Heterostructures Featuring Self‐Equilibrium Orbital Occupancy
Wenli Xu,Rong Zhao,Qiqi Li,Bing Sun,Jiong Wu,Wenda Zhong,Yinhong Gao,Xu Nan,Qiang Huang,Yao Yang,Xuanke Li,Nianjun Yang,Qi Zhang +12 more
TL;DR: In this paper , a so-called "orbital occupancy self-equilibrium" strategy is employed theoretically and experimentally to design such bi-functional catalysts, namely the incorporation of the V species into a NiS/NiS2 heterostructure.
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Boosting high-rate lithium storage in Li3VO4 via honeycomb structure design and electrochemical reconstruction
TL;DR: In this paper, the authors demonstrate for the first time that Li3VO4's moderate lifespan under high-rate hinders its practical application in LIBs, and demonstrate that its intrinsic safety and capacity merits endow it with great promising inLIBs.
22
Al30 polycation pillared montmorillonite preparation and phosphate adsorption removal from water
Xiaoqiang Cao,Ming Chen,Yaqi Wang,Shuhuai Shen,Zhongling Zhang,Bo-lai Li,Bing Sun +6 more
TL;DR: In this paper , aluminum polycation Al30 was used as a pillaring agent to modify MMT material, and response surface method was used to optimize the preparation process, and the results indicated that the acid environment is more favorable for the adsorption of phosphate by Al30-MMT.
14
Construction of hierarchical Li3VO4/NC sponge structure for high-performance lithium storage
TL;DR: Li et al. as mentioned in this paper designed a hierarchical Li3VO4/NC sponge structure (H-LVO/NC SS) for achieving the adhesion of ultrasmall LVO nanoparticles on the N-doped carbon sponge.
7
Zero-strain strategy incorporating TaC with Ta2O5 to enhance its rate capacity for long-term lithium storage
TL;DR: In this paper , a zero-strain strategy was developed to composite Ta2O5 and TaC as an anode for lithium-ion batteries (LIBs), which can alleviate the volume variation of TaO5 when cycling, thereby enhancing the rate capacity and long-term cycling stability of the whole electrode.