代表性论文
[1] H. F. Shi,*, S. Han, Z. H. Hou, H. B. Lan, S. Z. Niu*, Q. Li,* Interactive issues and strategic solutions for aqueous Zn metal anodes, J. Energy Chem., 103: 163-187. (IF= 13.1,1区TOP期刊)
[2] H. F. Shi,* W. Y. Sun, J. K. Cao, S. Han, G. X. Lu, Z. A. Ghazi, X. Y. Zhu, H. B. Lan, W. Lv,* Challenges and solutions for lithium-sulfur batteries with lean electrolyte, Adv. Funct. Mater., 2023, 33(42): 2306933. (IF= 19, 1区TOP期刊)
[3] H. F. Shi, W. Lv,* C. Zhang,* D.-W. Wang, G. Ling, Y. B. He, F. Y. Kang and Q.-H. Yang.* Functional carbons remedy the shuttling of polysulfides in lithium-sulfur batteries: confining, trapping, blocking, and breaking up, Adv. Funct. Mater., 2018:1800508. (IF= 19, 1区TOP期刊)
[4] H. F. Shi,† Z. H. Sun,† W. Lv,* Y. Shi, Y. B. Zhang, S. J. Xiao, H.C. Yang, Q.-H. Yang* and F. Li.* Necklace-like MoC sulfiphilic sites embedded in interconnected carbon networks for Li-S batteries with high sulfur loading, J. Mater. Chem. A, 2019, 7: 11298-11304. (IF=11.9, 2区TOP期刊)
[5] H. F. Shi,† S. Z. Niu,† W. Lv,* G. M. Zhou, C. Zhang, Z. H. Sun, F. Li, F. Y. Kang and Q.-H. Yang. Easy fabrication of flexible and multilayer nanocarbon-based cathodes with a high areal sulfur loading by electrostatic spraying for lithium-sulfur batteries, Carbon, 2018, 138:18-25. (IF=10.9, 2区TOP期刊)
[6] H. F. Shi,† Z. H. Sun,† W. Lv,* S. J. Xiao, H. C. Yang, Y. Shi, K. Chen, S. G. Wang, Q.-H. Yang* and F. Li* Efficient polysulfide blocker from conductive nitrides@graphene for Li-S batteries, J. Energy Chem., 2020, 49: 135-141. (IF= 13.1, 1区TOP期刊)
[7] H. F. Shi, J. K. Cao, Z. H. Sun,* Z. A. Ghazi, X. Y. Zhu, S. Han, D. Y. Ren, G. X. Lu, H. B. Lan,* F. Li,* 3D printing enables customizable batteries, Batteries Supercaps, 2023, 6(7): e202300161. (IF= 5.7, 3区)
[8] H. F. Shi,* J. K. Cao, W. Y. Sun, G. X. Lu,* H. B. Lan, L. Xu, Z. A. Ghazi, D. H. Fan, Z. Y. Mao, D. L. Han, W. B. Liu, S. Z. Niu,* Ultrasmall, Amorphous V2O3 Intimately Anchored on a Carbon Nanofiber Aerogel Toward High-Rate Zinc-Ion Batteries, ACS Appl. Mater. Interfaces, 2024, 16(15): 18812-18823. (IF= 9.5,2区TOP期刊)
[9] W. Y. Sun, J. K. Cao, S. Han, H. F. Shi,* G. X. Lu,* X. Y. Zhu,* L. Xu, Z. A. Ghazi, D. H. Fan, D. L. Han, H. B. Lan, S. Z. Niu,* Synergy of Structural Engineering and VO2 Self-transformation Enables Ultra-High Areal Capacity Cathodes for Zinc-Ion Batteries, Carbon, 2024, 226: 119241. (IF= 10.9, 2区TOP期刊)
[10] H. F. Shi,* J. K. Cao, S. Han, W. Y. Sun, X. Y. Zhu, G. X. Lu,* H. B. Lan, H. C. Yang, S. Z. Niu,* Hierarchical carbon hollow nanospheres coupled with ultra-small molybdenum carbide as sulfiphilic sulfur hosts for lithium-sulfur batteries, RSC Adv., 2023, 13(30): 20810-20815. (IF= 3.9, 3区)
[11] Z. Z. Pan, W. Lv, Y. B. He, Y. Zhao, G. M. Zhou, L. B. Dong, S. Z. Niu, C. Zhang, R. Y. Lyu, C. Wang, H. F. Shi, W. J. Zhang, F. Y. Kang, Hirotomo Nishihara and Quan‐Hong Yang. A Nacre-like Carbon Nanotube Sheet for High Performance Li-polysulfide Batteries with High Sulfur Loading[J]. Advanced Science, 2018, 5(6). (IF=14.3,1区TOP期刊)
[12] S. Z. Niu, W. Lv, G. M. Zhou, H. F. Shi, X. Y. Qin, C. Zheng,T. H. Zhou, C. Luo, Y. Q. Deng, B. H. Li, F. Y. Kang and Q.-H. Yang. Electrostatic-spraying an ultrathin, multifunctional and compact coating onto a cathode for a long-life and high-rate lithium-sulfur battery[J]. Nano Energy, 2016, 30:138-145. (IF=16.8, 1区TOP期刊)
[13] S. Z. Niu, G. M. Zhou, W. Lv, H. F. Shi, C. Luo, Y. B. He, B. H. Li, Q.-H. Yang and F. Y. Kang. Sulfur confined in nitrogen-doped microporous carbon used in a carbonate-based electrolyte for long-life, safe lithium-sulfur batteries[J]. Carbon, 2016, 109:1-6. (IF=10.5, 2区TOP期刊)
[14] H. C. Yang, L C. Yin H. F. Shi, K. He, H.-M. Cheng, F. Li. Suppressing lithium dendrite formation by slowing its desolvation kinetics[J]. Chemical Communications, 2019, 55: 13211-13214.. (IF=4.3, 2区TOP期刊)
