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1. Mingshan Wang *, Anmin Peng, Jinxiu Jiang, et.al., Heterointerface synergistic Na+ storage fundamental mechanism for CoSeO3 playing as anode for sodium ion batteries/capacitors, Chemical Engineering Journal 433 (2022) 134567
2. Jun Zhang, Mingshan Wang, * Jialun Zhong, et.al., Gradient valence-distributed vanadium oxygen hydrate hybrid induces high performance aqueous zinc-ion batteries, Mater. Chem. Front. 2021,5(20):7518-7528
3. Wang, Mingshan*, Zhang, Jun, Zhang, Linzi, et.al., Graphene-like Vanadium Oxygen Hydrate (VOH) Nanosheets Intercalated and Exfoliated by Polyaniline (PANI) for Aqueous Zinc-Ion Batteries (ZIBs). ACS Appl. Mater. Interfaces 2020, 12, 28, 31564-315742.
4. Mingshan Wang*, Anmin Peng, Hao Xu, et.al.,Amorphous SnSe quantum dots anchoring on graphene as high performance anodes for battery/capacitor sodium ion storage, J. Power Sources, 469 (2020) 228414
5. Mingshan Wang*, Hua Yang, Kangqi Shen, et.al., Stable Lithium Sulfur Battery Based on In Situ Electrocatalytically Formed Li2S on Metallic MoS2-Carbon Cloth Support, Small Methods, 2020, 2000353
6. Chaofeng Liu, Meng Tian, Mingshan Wang, et.al., Catalyzing zinc-ion intercalation in hydrated vanadates for aqueous zinc-ion batteries, J. Mater. Chem. A, 2020, 8, 7713
7. Ming-Shan Wang,?, Guo-Liang Wang, Shuai Wang, et.al., In situ catalytic growth 3D multi-layers graphene sheets coated nano-silicon anode for high performance lithium-ion batteries. Chem. Eng. J., 356 (2019) 895-903£¨ESI¸ß±»Òý£©
8. Mingshan Wang,* Hao Xu, Zhenliang Yang, et.al., SnS Nanosheets Confined Growth by S and N Codoped Graphene with Enhanced Pseudocapacitance for Sodium-Ion Capacitors£¬ACS Appl. Mater. Interfaces£¬2019, 11, 44, 41363-41373
9. Ming-Shan Wang*, Zhi-Qiang Wang, Zhou Chen, et.al., One dimensional and coaxial polyaniline@tin dioxide@multi-wall carbon nanotube as advanced conductive additive free anode for lithium ion battery, Chem. Eng. J., 334 (2018) 162-171
10. Wenchao Bi, Juanjuan Huang, Mingshan Wang, et.al.,V2O5-Conductive polymer nanocables with builtin local electric field derived from interfacial oxygen vacancies for high energy density supercapacitors, J. Mater. Chem. A, 2019, 7, 17966-17973
11. Chaofeng Liu, Mingshan Wang, Guozhong Cao* et.al. Expanded hydrated vanadate for high-performance aqueous zinc-ion batteries, Energy Environ. Sci., 2019,12, 2273-2285 £¨ESI¸ß±»Òý£©
12. Xing Li*, Yao Tang, Mingshan Wang et.al., Self-supporting activated carbon/carbon nanotube/reduced graphene oxide flexible electrode for high performance supercapacitor, Carbon, 129 (2018) 236-244£¨ESI¸ß±»Òý£©
13. Ming-Shan Wang*, Zhi-Qiang Wang, Zhen-Liang Yang, et.al., Carbon nanotube-graphene nanosheet conductive framework supported SnO2 aerogel as a high performance anode for lithium ion battery, Electrochim. Acta, 2017, 240:7-15
14. Ming-Shan Wang*, Ming Lei, Zhi-Qiang Wang, et.al., Scalable preparation of porous micron-SnO2/C composites as high performance anode material for lithium ion battery, J.Power Sources, 2016, 309: 238-244.
15. Ming-Shan Wang, Wei-Li Song, Li-Zhen Fan*, Interconnected TiOx/carbon hybrid framework incorporated silicon for stable lithium ion battery anodes, J. Mater. Chem. A. 2015,3, 12709-12717
16. Ming-Shan Wang, Wei-Li Song, Jia Wang, Li-Zhen Fan*, Highly uniform silicon nanoparticle/porous carbon nanofiber hybrids towards free-standing high-performance anodes for lithium-ion batteries. Carbon, 2015,82,337-345.
17. Dandan Sun1, MingshanWang1, Zhengyang Li, Guangxin Fan, Li-Zhen Fan*, Aiguo Zhou, Two-dimensional Ti3C2 as anode material for Li-ion batteries, Electrochem. Commun., 2014, 47, 80-83. £¨ESI¸ß±»Òý£©
18. Ming-Shan Wang, Li-Zhen Fan*, Silicon/carbon nanocomposite pyrolyzed from phenolic resin as anode materials for lithium-ion batteries, J. power source, 2013, 244,570-574.
19. Ming-Shan Wang, Li-Zhen Fan*, Mian Huang, Jinhong Li, Xuanhui Qu, Conversion of diatomite to porous Si/C composites as promising anode materials for lithium-ion batteries, J. power source, 2012, 219, 29-35.
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