南昌大学物理与材料学院
材料科学与工程系
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费林峰 教授 博导

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费林峰,理学博士。于中国科学技术大学化学系取得本科学位,后于香港理工大学应用物理学系相继取得硕士、博士学位。博士毕业后,在香港理工大学继续从事博士后研究。2018年加入南昌大学物理与材料学院。

聚焦于固相及固相表面的多相物理化学过程,利用原子分辨的原位电子显微方法和尺度计算模拟,揭示关键材料在人工环境下的微观结构变化机理和动力学,并进而对材料结构进行调控以达到提升性能的目的。具体研究方向包括:1)结晶、生长、相变等过程的原位显微研究;(2使役状况下材料行为的原子尺度解析;(3跨尺度功能材料的表界面结构和性能调控。以第一/通讯作者在包括Nature MaterialsNature CommunicationsAdvanced MaterialsActa Materialia等材料科学类主流杂志发表文章50余篇。获正面引用超过6000,多篇论文入围ESI数据库“高被引论文”;多篇论文被科学网、ChemistryViewsMaterialsViews、英国皇家化学会(RSC)等学术媒体作为亮点研究报道。


联系方式

电子邮件:flf@ncu.edu.cn

ORCID iDhttps://orcid.org/0000-0001-7329-0019

近五年代表性论文

(1) P. Yang, J. Qiang, J. Q. Chen, Z. Y. Zhang,* M. Xu,* and L. F. Fei.* “A versatile metal-organic-framework pillared interlayer design for high-capacity and long-life lithium-sulfur batteries”, Angewandte Chemie International Edition (2024, e202414770). https://doi.org/10.1002/anie.202414770

(2) J. Zhou, C. X. Xing, J. W. Huang, Y. C. Zhang, G. W. Li, L. Chen, S. Q. Tao, Z. L. Yang, G. R. Wang, and L. F. Fei.* “Direct upcycling of leached FePO4 from spent lithium-ion batteries toward gradient-doped LiMnxFe1-xPO4 cathode material”, Advanced Energy Materials (2024, 14, 2302761). https://doi.org/10.1002/aenm.202302761

Selected as back cover https://doi.org/10.1002/aenm.202470033

(3) Z. L. Yang, C. X. Xing, L. Chen, S. Q. Tao, Y. C. Zhang, G. R. Wang, P. Yang, J. Zhou, C. C. Zhang, J. Q. Chen, and L. F. Fei.* “Direct upcycling of degraded LiCoO2 material toward high-performance single-crystal NCM cathode”, Advanced Functional Materials (2024, 2409737). https://doi.org/10.1002/adfm.202409737

(4) L. Chen, C. X. Xing, Z. L. Yang, S. Q. Tao, Y. C. Zhang, G. R. Wang, P. Yang, J. P. Song, J. Q. Chen, and L. F. Fei.* “Effective upcycling of degraded NCM cathode materials assisted by surface engineering for high-performance lithium-ion batteries”, Advanced Functional Materials (2024, 2411182). https://doi.org/10.1002/adfm.202411182

(5) Y. Y. Deng, C. X. Xing, C. Li, Y. B. Zhou, Z. P. Peng, L. F. Fei,* C. Y. Zhi,* and T. Wang.* “Effective water confinement and dual electrolyte-electrode interfaces by zwitterionic oligomer for high-voltage aqueous lithium-ion batteries”, Advanced Functional Materials (2024, 2416566). https://doi.org/10.1002/adfm.202416566

(6) J. W. Huang, Y. C. Zhang, J. Q. Chen, Z. Y. Zhang, C. F. Zhang,* C. S. Huang,* and L. F. Fei.* “Surface topology of MXene flakes induces the selection of the sintering mechanism for supported Pt nanoparticles”, Chemical Science (2024, 15, 14521). https://doi.org/10.1039/D4SC03284E

(7) Y. C. Zhang, J. W. Huang, M. Y. Zhu, Z. Y. Zhang, K. Q. Nie, Z. G. Wang, X. X. Liao, L. L. Shu, T. F. Tian,* Z. Wang,* Y. Lu, and L. F. Fei.* “Significant hydrogen generation via photo-mechanical coupling in flexible methylammonium lead iodide nanowires”, Chemical Science (2024, 15, 1782). https://doi.org/10.1039/D3SC05434A

(8) C. X. Xing,# M. Gan,# Y. R. Ying, B. Zhang, L. M. Liu, J. Ye,* Y. Liu,* Y. F. Zhang,* H. T. Huang, and L. F. Fei.* “Multiscale observations on mechanisms for direct regeneration of degraded NCM cathode materials”, Energy Storage Materials (2024, 65, 103182). https://doi.org/10.1016/j.ensm.2024.103182

(9) C. X. Xing, M. Yao,* and L. F. Fei.* “Upcycling degraded layered oxide cathodes from spent lithium-ion batteries toward emerging materials: A review”, Energy Storage Materials (2024, 71, 103636). https://doi.org/10.1016/j.ensm.2024.103636

(10) G. R. Wang, M. Xu,* L. F. Fei,* and C. Z. Wu.* “Toward high-performance Li-rich Mn-based layered cathodes: A review on surface modifications”, Small (2024, 20, 2405659). https://doi.org/10.1002/smll.202405659

(11) Z. W. Li,# Y. H. He,# J. W. Huang, Z. Zhu, Y. Yang, L. Jiang, S. L. Yang, Z. Wang,* L. F. Fei,* H. S. Gu, and J. Wang.* “Ultrathin boundary-less SnO2 films with surface-activated two-dimensional nanograins enable fast and sensitive hydrogen gas sensing”, ACS Sensors (2024, 9, 2653). https://doi.org/10.1021/acssensors.4c00508

(12) M. Xu,#* P. Yang,# K. Fan,# Y. Gao, Z. Y. Zhang, Y. Li,* X. Y. Li, J. Q. Qi, K. Xi, H. T. Huang,* and L. F. Fei.* “Dynamically regulated redox shuttling and nucleation of lithium polysulfides through the built-in ferroelectric field”, Nano Today (2024, 57, 102393). https://doi.org/10.1016/j.nantod.2024.102393

Selected in the special issue “Advanced in-situ transmission electron microscopy for multi-scale manufacturing: Dynamics in matter and process

(13) M. Gan,# J. W. Huang,# X. D. Li, M. P. Li, Z. Y. Zhang, Z. Yang, C. F. Zhang, P. Yang, X. L. Gan,* C. Lu, X. C. Yang, L. F. Fei,* and C. S. Huang.* “Incomplete charge transfer bestows significant sintering resistance for metal nanoparticles on two-dimensional graphyne”, Journal of Materials Chemistry A (2024, 12, 29174). https://doi.org/10.1039/D4TA05822D

(14) G. W. Li, J. W. Huang, J. Zhou, Y. C. Zhang, C. C. Zhang, Z. G. Rao,* and L. F. Fei.* “A flame-retardant wood-based composite with magnesium–aluminium layered double hydroxides for efficient daytime radiative cooling”, Journal of Materials Chemistry A (2024, 12, 1609). https://doi.org/10.1039/D3TA06065A

(15) G. Wang, G. X. Wang, L. F. Fei,* L. N. Zhao, and H. T. Zhang.* “Structural engineering of anode materials for low-temperature lithium-ion batteries: Mechanisms, strategies, and prospects”, Nano-Micro Letters (2024, 16, 150). https://doi.org/10.1007/s40820-024-01363-y

(16) C. X. Xing, H. R. Da, P. Yang, J. W. Huang, M. Gan, J. Zhou, Y. Li, H. T. Zhang, B. H. Ge,* and L. F. Fei.* “Aluminum impurity from current collectors reactivates degraded NCM cathode materials toward superior electrochemical performance”, ACS Nano (2023, 17, 3194). https://doi.org/10.1021/acsnano.3c00270

(17) Z. Y. Zhang,# Y. R. Ying,# Z. Y. Wu, J. W. Huang, M. Gan, H. T. Zhang, H. T. Huang, Y. B. Zhou,* and L. F. Fei.* “Direct observation on single-crystal-to-single-crystal transformation via lattice-matched nucleation and growth”, Acta Materialia (2023, 258, 119206). https://doi.org/10.1016/j.actamat.2023.119206

(18) J. W. Huang, J. L. Yin, J. Q. Chen, M. Gan, Z. Y. Zhang, T. F. Tian, and L. F. Fei.* “Dynamic observations on formation of coffee-ring structures from the degradation of cesium lead halide perovskite nanocrystals”, The Journal of Physical Chemistry Letters (2023, 14, 8563). https://doi.org/10.1021/acs.jpclett.3c02166

(19) Z. Y. Zhang, Y. J. Tang, Y. R. Ying, J. Q. Guo, M. Gan, Y. T. Jiang, C. X. Xing, S. S. Pan, M. Xu, Y. B. Zhou, H. T. Zhang,* C. W. Leung, H. T. Huang, C. L. Mak,* and L. F. Fei.* “Multistep nucleation visualized during solid-state crystallization”, Materials Horizons (2022, 9, 1670). https://doi.org/10.1039/D2MH00174H

(20) J. W. Huang, Z. Y. Zhang, Y. R. Ying, M. Gan, H. T. Huang, and L. F. Fei.* “Atomic-scale mechanisms on stepwise growth of MoxW1-xS2 into hexagonal flakes”, Chemical Communications (2022, 58, 9746). https://doi.org/10.1039/D2CC02465A

Selected as inside front cover https://doi.org/10.1039/D2CC90316D

(21) A. W. Xie, R. Z. Zuo,* Z. L. Qiao, Z. Q. Fu,* T. F. Tu, and L. F. Fei.* “NaNbO3-(Bi0.5Li0.5)TiO3 lead-free relaxor ferroelectric capacitors with superior energy-storage performances via multiple synergistic design”, Advanced Energy Materials (2021, 11, 2101378). https://doi.org/10.1002/aenm.202101378


(22) Z. Y. Zhang, J. Qiang, S. S. Wang, M. Xu, M. Gan, Z. G. Rao, T. F. Tian, S. M. Ke, Y. B. Zhou, Y. M. Hu,* C. W. Leung, C. L. Mak,* and L. F. Fei.* “Visualization of bubble nucleation and growth confined in 2D flakes”, Small (2021, 17, 2103301). https://doi.org/10.1002/smll.202103301

Selected as inside back cover https://doi.org/10.1002/smll.202170205

(23) L. L. Shu,#* S. M. Ke,# L. F. Fei,# W. B. Huang,# Z. G. Wang, J. H. Gong, X. N. Jiang, L. Wang, F. Li, S. J. Lei, Z. G. Rao, Y. B. Zhou, R. -K. Zheng, X. Yao, Y. Wang, M. Stengel, and G. Catalan.* “Photoflexoelectric effect in halide perovskites”, Nature Materials (2020, 19, 605). https://doi.org/10.1038/s41563-020-0659-y

(24) Z. Y. Zhang,# Y. R. Ying,# M. Xu, C. L. Zhang, Z. G. Rao, S. M. Ke, Y. B. Zhou, H. T. Huang, and L. F. Fei.* “Atomic steps induce the aligned growth of ice crystals on graphite surfaces”, Nano Letters (2020, 20, 8112). https://doi.org/10.1021/acs.nanolett.0c03132

(25) Z. Y. Zhang, Y. B. Zhou, X. L. Zhu, L. F. Fei,* H. T. Huang,* and Y. Wang. “Applications of ESEM on materials science: recent updates and a look forward”, Small Methods (2020, 4, 1900588). https://doi.org/10.1002/smtd.201900588

(26) Z. Y. Zhang, L. F. Fei,* D. J. Liu, Z. G. Rao, T. F. Tian,* Y. M. Hu, and Y. Wang.* “In situ observations for growth kinetics of water droplets on bambusa multiplex leaves”, Applied Physics Letters (2019, 114, 153702). https://doi.org/10.1063/1.5090182

(27) L. F. Fei, X. L. Gan, S. M. Ng, H. Wang, M. Xu, W. Lu, Y. C. Zhou, C. W. Leung, C. L. Mak,* and Y. Wang.* “Observable two-step nucleation mechanism in solid-state formation of tungsten carbide”, ACS Nano (2019, 13, 681). https://doi.org/10.1021/acsnano.8b07864

(28) J. Z. Jiang,# M. Xiong,# K. Fan, C. X. Bao, D. Y. Xin, Z. W. Pan, L. F. Fei, H. T. Huang, L. Zhou, K. Yao,* X. J. Zheng, L. Shen,* and F. Gao.* “Synergistic strain engineering of perovskite single crystals for highly stable and sensitive X-ray detectors with low-bias imaging and monitoring”, Nature Photonics (2022, 16, 575). https://doi.org/10.1038/s41566-022-01024-9

(29) C. Chen,# Y. L. Yin,# R. C. Zhang,# Q. H. Yuan, Y. Xu, Y. S. Zhang, J. Chen, Y. Zhang, C. Li, J. Y. Wang, J. Li, L. F. Fei, Q. Yu, Z. Zhou, H. S. Zhang, R. Q. Cheng, Z. Dong, X. H. Xu, A. L. Pan,* K. Zhang,* and J. He.* “Growth of single-crystal black phosphorus and its alloy films through sustained feedstock release”, Nature Materials (2023, 22, 717). https://doi.org/10.1038/s41563-023-01516-1