季华实验室测试中心
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张成智
博士/碳材料首席专家
电子信箱:zhangchz@jihualab.ac.cn
办公电话:18874097442
办公地点:B2楼411办公室
简历介绍
张成智,季华实验室碳材料首席专家。2015年毕业于湖南大学材料科学与工程学院,2020年博士毕业于湖南大学材料科学与工程学院。2023年博士后出站于季华实验室(工作站)和中国科学院长春光学精密机械与物理研究所(流动站)。主要研究动力电池负极材料和碳纤维复合材料,包括:1)石墨负极材料、硅基负极材料、补锂、电极设计;2)功能型碳基新材料(石墨层间化合物、沥青基多孔碳、无定型纳米碳等);3)沥青基碳纤维及其复合材料制备和研发。近5年,以第一作者/通讯作者,在国际高水平科技期刊发表论文24篇。包括Energy Environ. Sci.一篇(IF:32.5),Adv. Energy Mater.两篇(IF:27.8),Carbon Energy一篇(IF:20.5),Energy Storage Mater.一篇(IF:20.4),Adv. Funct. Mater.一篇(IF:19.0),Small两篇(IF:13.3),Small Struct.一篇(IF:15.9),J. Energy Chem.一篇(IF:13.1),J. Mater. Chem. A两篇(IF:11.9),Carbon一篇(IF:10.5),Rare Met.一篇(IF:9.6)等。其他合作作者文章16篇。获得国内授权专利3项,申请中10项。正在主持季华实验室青创基金、广东省基础与应用基础研究基金、佛山市博士后科研经费、国家自然科学基金等多项基金。
代表性成果
(1) Wang, F.; Liu, Z.; Xiang, Z.; Zhang, C.; Lu, A.; Qi, F.; Tan, J.; Liu, J. Delocalized CS decorates a 3D sp2-hybridized carbon skeleton for superior charge transfer kinetics of anodes. Energy & Environmental Science 2023, 16, 5154-5169.
(2) Wang, F.; Wang, Y.; Liu, Z.; Zhang, C.; Li, L.; Ye, C.; Liu, J.; Tan, J. Carbon-Binder Design for Robust Electrode–Electrolyte Interfaces to Enable High-Performance Microsized-Silicon Anode for Batteries. Advanced Energy Materials 2023, 13, 2301456.
(3) Feng, H.; Liu, Z.; Wang, F.; Xue, L.; Li, L.; Ye, C.; Zhang, C.; Liu, Q.; Tan, J. The C─S/C═S Bonds Synergistically Modify Porous Hollow-Carbon-Nanocages Anode for Durable and Fast Sodium-Ion Storage. Adv Funct Mater 2024, 34, 2400020.
(4) Zhang, C.; Wang, F.; Han, F.; Wu, H.; Zhang, F.; Zhang, G.; Liu, J. Improved Electrochemical Performance of Sodium/Potassium-Ion Batteries in Ether-Based Electrolyte: Cases Study of MoS2@C and Fe7S8@C Anodes. Adv Mater Interfaces 2020, n/a, 2000486.
(5) Wang, F.; Li, D.; Zhang, G.; Li, J.; Zhang, C.; Wei, D.; Yang, J.; Ye, C.; Tan, J.; Liu, J. Sulfur doped hollow carbon nanofiber anodes for fast-charging potassium-ion storage. Appl Surf Sci 2023, 614, 156149.
(6) Li, J.; Wang, F.; Zhang, C.; Dang, D.; Liu, Q.; Tan, J. Electrode Binder Design on Silicon-Based Anode for Next-Generation Lithium-Ion Batteries. Batteries & Supercaps 2024, n/a, e202400273.
(7) Han, F.; Zhang, C.; Sun, B.; Tang, W.; Yang, J.; Li, X. Dual-carbon phase-protective cobalt sulfide nanoparticles with cable-type and mesoporous nanostructure for enhanced cycling stability in sodium and lithium ion batteries. Carbon 2017, 118, 731-742.
(8) Quan, Z.; Lu, A.; Wang, F.; Liu, Z.; Wang, S.; Zhou, Y.; Zhang, C.; Ye, C.; Liu, J.; Tan, J. Soft carbon filled in expanded graphite layer pores for superior fast-charging lithium-ion batteries. Carbon 2024, 229, 119500.
(9) Lu, A.; Wang, F.; Liu, Z.; Wang, Y.; Gu, Y.; Wang, S.; Ye, C.; Liu, Q.; Zhang, C.; Tan, J. Metal chloride-graphite intercalation compounds for rechargeable metal-ion batteries. Carbon Energy 2024, 6, e600.
(10) Zhang, C.; Han, F.; Wang, F.; Liu, Q.; Zhou, D.; Zhang, F.; Xu, S.; Fan, C.; Li, X.; Liu, J. Improving compactness and reaction kinetics of MoS2@C anodes by introducing Fe9S10 core for superior volumetric sodium/potassium storage. Energy Storage Materials 2020, 24, 208-219.
(11) Luo, Y.; Liu, Z.; Liu, J.; Cai, W.; Liao, Z.; Feng, X.; Zheng, J.; Zhang, C.; Fang, Y. Adjustable n→π* electronic transition by sulfonated benzene functionalized g-C3N4 for enhanced photocatalytic H2 generation. Int J Hydrogen Energ 2024, 64, 558-568.
(12) Zhang, C.; Wei, D.; Wang, F.; Zhang, G.; Duan, J.; Han, F.; Duan, H.; Liu, J. Highly active Fe7S8 encapsulated in N-doped hollow carbon nanofibers for high-rate sodium-ion batteries. Journal of Energy Chemistry 2021, 53, 26-35.
(13) Cai, H.; Wang, F.; Feng, H.; Liu, Z.; Zhang, C.; Lu, A.; Zhao, X.; Lu, Q.; Liu, Q.; Tan, J. Boosting reaction kinetics of polycrystalline phase Fe7S8/FeS2 heterostructures encapsulated in hollow carbon nanofibers for superior fast sodium storage. Journal of Materials Chemistry A 2024, 12, 11266-11276.
(14) Han, F.; Zhang, C.; Yang, J.; Ma, G.; He, K.; Li, X. Well-dispersed and porous FeP@C nanoplates with stable and ultrafast lithium storage performance through conversion reaction mechanism. Journal of Materials Chemistry A 2016, 4, 12781-12789.
(15) Zhang, C.; Han, F.; Ma, J.; Li, Z.; Zhang, F.; Xu, S.; Liu, H.; Li, X.; Liu, J.; Lu, A.-H. Fabrication of strong internal electric field ZnS/Fe9S10 heterostructures for highly efficient sodium ion storage. Journal of Materials Chemistry A 2019, 7, 11771-11781.
(16) Zhang, C.; Ma, J.; Han, F.; Liu, H.; Zhang, F.; Fan, C.; Liu, J.; Li, X. Strong anchoring effect of ferric chloride-graphite intercalation compounds (FeCl3-GICs) with tailored epoxy groups for high-capacity and stable lithium storage. Journal of Materials Chemistry A 2018, 6, 17982-17993.
(17) Li, Z.; Zhang, C.; Han, F.; Zhang, F.; Zhou, D.; Xu, S.; Liu, H.; Li, X.; Liu, J. Improving the cycle stability of FeCl3-graphite intercalation compounds by polar Fe2O3 trapping in lithium-ion batteries. Nano Res 2019, 12, 1836-1844.
(18) Li, Z.; Tian, Z.; Zhang, C.; Wang, F.; Ye, C.; Han, F.; Tan, J.; Liu, J. An AlCl3 coordinating interlayer spacing in microcrystalline graphite facilitates ultra-stable and high-performance sodium storage. Nanoscale 2021, 13, 10468-10477.
(19) Liu, Z.-D.; Feng, H.-Y.; Wang, Y.-C.; Wang, F.; Liu, Y.; Yang, J.-X.; Gu, Y.; Tan, J.; Ye, C.; Zhang, C.-Z. Nanopore design of sulfur doped hollow carbon nanospheres for superior potassium-ion battery anodes. Rare Metals 2024, 43, 2103-2114.
(20) Quan, Z.; Wang, F.; Wang, Y.; Liu, Z.; Zhang, C.; Qi, F.; Zhang, M.; Ye, C.; Tan, J.; Liu, J. Robust Micro-Sized and Defect-Rich Carbon–Carbon Composites as Advanced Anodes for Potassium-Ion Batteries. Small 2024, 20, 2305841.
(21) Zhang, C.; Wang, F.; Han, J.; Bai, S.; Tan, J.; Liu, J.; Li, F. Challenges and Recent Progress on Silicon-Based Anode Materials for Next-Generation Lithium-Ion Batteries. Small Structures 2021, 2, 2100009.
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