宁芳华


    姓名:宁芳华
    职务/职称:讲师
    邮箱:fhning@shu.edu.cn
    电话:18811516365

    研究领域:
    锂离子电池正极材料,第一性原理计算

    教育经历:
    2017年9月-2021年7月 北京大学,能源与资源工程,工学博士

    工作经历:
    2021年7月-至今 古天乐代言太阳集团,古天乐代言太阳集团/可持续能源研究院,讲师,硕士生导师


    代表性科研项目:
    1.    富锂正极材料阴离子氧化还原的可逆化机理研究,青年英才启航计划,2022-09至2025-08,在研,主持
    2.    高性能正极材料的理论计算研究, 校企项目,2022-01至2024-12,在研, 主持

    代表性学术论文:
    [1]    F. H. Ning, B. Li, J. Song, Y. X. Zuo, H. F. Shang, Z. M. Zhao, Z. Yu, W. S. Chu*, K. Zhang, G. Feng, X. Y. Wang*, D. G. Xia*, Inhibition of oxygen dimerization by local symmetry tuning in Li-rich layered oxides for improved stability. Nat. Commun. 2020, 11, 4973.
    [2]    F. H. Ning#, H. F. Shang#, B. Li, N. Jiang, D. G. Xia*, Surface thermodynamic stability of Li-rich Li2MnO3: The effect of defective graphene. Energy Storage Mater. 2019, 22, 113–119.
    [3]    X. Y. Liu, Y. M. Guo, F. H. Ning*, Y. Y. Liu, S. Q. Shi, Q. Li, J. J. Zhang, S. G. Lu, J. Yi*, Fundamental understanding of hydrogen evolution reaction on zinc anode surface: A first-principles study. Nanomicro Lett. 2024, 16 (1), 111.
    [4]    S. J. Lv, M. Y. Su, Z. Li, Y. Y. Mao, J. L. Yin*, D. X. Cao, G. L. Wang, J. Yi*, F. H. Ning*, K. Zhu*, Hydrophilic‐zincophobic separator enabling by crystal structure regulation toward stabilized Zn metal anode. Adv. Funct. Mater. 2024, 2315910.
    [5]    J. Song#, F. H. Ning#, Y. Zuo, A. Li, H. Wang, K. Zhang, T. H. Yang, Y. L. Yang, C. Gao, W. K. Xiao,; Z. W. Jiang, T. Chen, G. Feng, D. G. Xia*, Entropy stabilization strategy for enhancing the local structural adaptability of Li-rich cathode materials. Adv. Mater. 2022, e2208726.
    [6]    G. Feng#, F. H. Ning#, Y. Pan, T. Chen, J. Song, Y. C. Wang, R. Q. Zou, D. Su, D. G. Xia, Engineering structurally ordered high-entropy intermetallic nanoparticles with high-activity facets for oxygen reduction in practical fuel cells. J. Am. Chem. Soc. 2023, 145, 11140–11150
    [7]    G. Feng#, F. H. Ning#, J. Song, H. F. Shang, K. Zhang, Z. P. Ding, P. Gao, W. S. Chu*, D. G. Xia*, Engineering sub-2 nm ultrasmall high-entropy alloy nanoparticles with extremely superior performance for hydrogen evolution catalysis. J. Am. Chem. Soc. 2021, 143, 17117–17127.
    [8]    F. H. Ning, B. Xu*, J. Shi, H. B. Su, M. S. Wu, G. Liu, C. Y. Ouyang*. Jahn-Teller distortion tuned Li ion migration in λ-MnO2: A first-principles study. J. Mater. Chem. A 2017, 5, 9618–9626.
    [9]    H. F. Shang#, F. H. Ning#, B. Li, Y. X. Zuo, S. G. Lu*, D. G. Xia*, Suppressing voltage decay of a lithium-rich cathode material by surface enrichment with atomic ruthenium. ACS Appl. Mater. Inter. 2018, 10, 21349–21355.
    [10]    F. H. Ning, B. Xu*, J. Shi, M. S. Wu, Y. Q. Hu, C. Y. Ouyang, Structural, electronic and Li migration properties of RE-doped (RE=Ce, La) LiCoO2 for Li-ion batteries: A first-principles investigation. J. Phys. Chem. C 2016, 120, 18428–18434.
    [11]    F. H. Ning, X. Gong, F. Y. Rao, X. M. Zheng, C. Y. Ouyang*, The performance of Li-doped LiCoO2 for Li-ion battery: A first-principles study. Int. J. Electrochem. Sci. 2016, 11, 1951–1959.
    [12]    F. H. Ning, S. Li, B. Xu, C. Y. Ouyang*, Strain tuned Li diffusion in LiCoO2 material for Li ion batteries: A first principles study. Solid State Ionics 2014, 263, 46–48.
    [13]    F. H. Ning, H. W. Wang, B. Xu, C. Y. Ouyang*. Jahn–Teller distortion affected Li ion migration in spinel TiO2. Solid State Ionics 2017, 312, 17–20.

    (最后更新日期:2024.04.16)


    宁芳华


      姓名:宁芳华
      职务/职称:讲师
      邮箱:fhning@shu.edu.cn
      电话:18811516365

      研究领域:
      锂离子电池正极材料,第一性原理计算

      教育经历:
      2017年9月-2021年7月 北京大学,能源与资源工程,工学博士

      工作经历:
      2021年7月-至今 古天乐代言太阳集团,古天乐代言太阳集团/可持续能源研究院,讲师,硕士生导师


      代表性科研项目:
      1.    富锂正极材料阴离子氧化还原的可逆化机理研究,青年英才启航计划,2022-09至2025-08,在研,主持
      2.    高性能正极材料的理论计算研究, 校企项目,2022-01至2024-12,在研, 主持

      代表性学术论文:
      [1]    F. H. Ning, B. Li, J. Song, Y. X. Zuo, H. F. Shang, Z. M. Zhao, Z. Yu, W. S. Chu*, K. Zhang, G. Feng, X. Y. Wang*, D. G. Xia*, Inhibition of oxygen dimerization by local symmetry tuning in Li-rich layered oxides for improved stability. Nat. Commun. 2020, 11, 4973.
      [2]    F. H. Ning#, H. F. Shang#, B. Li, N. Jiang, D. G. Xia*, Surface thermodynamic stability of Li-rich Li2MnO3: The effect of defective graphene. Energy Storage Mater. 2019, 22, 113–119.
      [3]    X. Y. Liu, Y. M. Guo, F. H. Ning*, Y. Y. Liu, S. Q. Shi, Q. Li, J. J. Zhang, S. G. Lu, J. Yi*, Fundamental understanding of hydrogen evolution reaction on zinc anode surface: A first-principles study. Nanomicro Lett. 2024, 16 (1), 111.
      [4]    S. J. Lv, M. Y. Su, Z. Li, Y. Y. Mao, J. L. Yin*, D. X. Cao, G. L. Wang, J. Yi*, F. H. Ning*, K. Zhu*, Hydrophilic‐zincophobic separator enabling by crystal structure regulation toward stabilized Zn metal anode. Adv. Funct. Mater. 2024, 2315910.
      [5]    J. Song#, F. H. Ning#, Y. Zuo, A. Li, H. Wang, K. Zhang, T. H. Yang, Y. L. Yang, C. Gao, W. K. Xiao,; Z. W. Jiang, T. Chen, G. Feng, D. G. Xia*, Entropy stabilization strategy for enhancing the local structural adaptability of Li-rich cathode materials. Adv. Mater. 2022, e2208726.
      [6]    G. Feng#, F. H. Ning#, Y. Pan, T. Chen, J. Song, Y. C. Wang, R. Q. Zou, D. Su, D. G. Xia, Engineering structurally ordered high-entropy intermetallic nanoparticles with high-activity facets for oxygen reduction in practical fuel cells. J. Am. Chem. Soc. 2023, 145, 11140–11150
      [7]    G. Feng#, F. H. Ning#, J. Song, H. F. Shang, K. Zhang, Z. P. Ding, P. Gao, W. S. Chu*, D. G. Xia*, Engineering sub-2 nm ultrasmall high-entropy alloy nanoparticles with extremely superior performance for hydrogen evolution catalysis. J. Am. Chem. Soc. 2021, 143, 17117–17127.
      [8]    F. H. Ning, B. Xu*, J. Shi, H. B. Su, M. S. Wu, G. Liu, C. Y. Ouyang*. Jahn-Teller distortion tuned Li ion migration in λ-MnO2: A first-principles study. J. Mater. Chem. A 2017, 5, 9618–9626.
      [9]    H. F. Shang#, F. H. Ning#, B. Li, Y. X. Zuo, S. G. Lu*, D. G. Xia*, Suppressing voltage decay of a lithium-rich cathode material by surface enrichment with atomic ruthenium. ACS Appl. Mater. Inter. 2018, 10, 21349–21355.
      [10]    F. H. Ning, B. Xu*, J. Shi, M. S. Wu, Y. Q. Hu, C. Y. Ouyang, Structural, electronic and Li migration properties of RE-doped (RE=Ce, La) LiCoO2 for Li-ion batteries: A first-principles investigation. J. Phys. Chem. C 2016, 120, 18428–18434.
      [11]    F. H. Ning, X. Gong, F. Y. Rao, X. M. Zheng, C. Y. Ouyang*, The performance of Li-doped LiCoO2 for Li-ion battery: A first-principles study. Int. J. Electrochem. Sci. 2016, 11, 1951–1959.
      [12]    F. H. Ning, S. Li, B. Xu, C. Y. Ouyang*, Strain tuned Li diffusion in LiCoO2 material for Li ion batteries: A first principles study. Solid State Ionics 2014, 263, 46–48.
      [13]    F. H. Ning, H. W. Wang, B. Xu, C. Y. Ouyang*. Jahn–Teller distortion affected Li ion migration in spinel TiO2. Solid State Ionics 2017, 312, 17–20.

      (最后更新日期:2024.04.16)