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Huifa Shi

发布人:机车学院时间:2022-03-11浏览:

Name: Huifa Shi

Education: Ph.D. (Tsinghua University)

Major: Material Processing   and Control Engineering

School: School of Mechanical and Automotive Engineering   (MAE)

Department/InstituteDepartment   of Measurement and Control Technology and Instrumentation; Institute of   Tribology

Title:   Associate Professor

Email:   shihuifa@qut.edu.cn

Personal profile(个人简介)

Huifa Shi, received his Ph.D. from Tsinghua University   in 2020 under the supervision of Prof. Quan-Hong Yang. He currently works as   an associate professor in the Qingdao University of Technology. His research   mainly focuses on the design and controlled preparation of carbon-based nanomaterials,   and their applications in energy storage and transformation.

Employment track(工作履历)

November 2020   – , Assoc. Professor, School of Mechanical and Automotive Engineering, Qingdao University of Technology, China.

May 2020 – October   2020, Young Scientist, Pilot National Laboratory for Marine Science and   Technology (Qingdao), China.

Professional Service (学术兼职)


Research field(研究领域)

Carbon   nanomaterials; Energy storage and transformation

Teaching(教学情况)

1. Engineering   Chemistry, undergraduate course

2. Transport   Principles in Materials Processing and Metallurgy, undergraduate course

Scientific research(科研情况)

Current research   interests

1. Design and   preparation of the functional carbon materials, such as graphene and porous   carbons;

2. Microscale 3D   printing used for the fabrication of secondary batteries.

Academic achievements(学术成果)

Selected   Research Projects:

1. Construction   and Surface/Interface Modulation of the Hierarchical Carbon Film for   Lean-electrolyte Lithium-Sulfur BatteriesNatural Science Foundation of Shandong Province,   China01/2022– 12/2024ZR2021QE098, PI.

Selected   Publications

1.   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[J].   Advanced Functional Materials, 2018:1800508.

2.   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]. Journal of Materials Chemistry A, 2019, 7: 11298-11304.

3.   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[J]. Carbon, 2018, 13818-25.

4.   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], Journal of   Energy Chemistry, 2020, 49: 135-141.

5.   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 QuanHong Yang. A Nacre-like Carbon Nanotube   Sheet for High Performance Li-polysulfide Batteries with High Sulfur   Loading[J]. Advanced Science, 2018, 5(6).

6.   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.

7.   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.

8.   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..