姓名：潘家鸿

职称：教授

所在院系：环境科学与工程学院

研究方向：Focus Area：

  环境与能源光（电）催化 Environmental and Energy Photo(electro)catalysis

  电化学储能材料和器件 Electrochemical Energy Storage Materials and Devices

  胶体颗粒的自组装合成 Self-Assembly Synthesis of Colloidal Spheres

  金属卤素钙钛矿光电转换材料 Photo(electro)catalytic Metal Halide Perovskites

联系方式：

办公地址：北京市昌平区北农路2号主楼G座534

电子邮箱： pan@ncepu.edu.cn

个人简介

  潘家鸿，男，洪堡学者。2007年8月获韩国仁荷大学化学系理学博士学位，随后在南洋理工大学土木与环境工程学院、新加坡国立大学化学与生物工程系和材料科学与工程系、德国汉诺威大学工业化学研究所等单位从事博士后科研工作。2015年10月作为海外引进人才回国，先后任华北电力大学可再生能源学院太阳能中心和环境科学与工程学院教授、博士生导师。英国南安普顿大学能源技术中心和帝国理工学院访问教授。近三年以通讯作者Prog. Mater. Sci.，ACS Energy Lett.，Adv. Colloid Interface Sci.等SCI二区以上期刊发表研究论文和综述30多篇，先后任Chemosphere, Catalysis Today, Applied Catalysis A, Journal of Photochemistry Photobiology A等期刊客座主编，担任Chemistry of Inorganic Materials、Frontiers in Chemistry等四种期刊编辑。现为国际半导体光化学会议（International Conference on Semiconductor Photochemistry）的学术委员会委员，国际太阳能光化学转换与储存大会（International Conference on Photochemical Conversion and Storage of Solar Energy）的国际组委会委员。

教学课程

物理化学B2，2021年起，40学时，60人

应用化学，2020年起，48学时，国际留学生

物理化学B1，2020年，40学时，60人

纳米材料学，2016-2019年，24学时，10~15人

物理化学A2，2016-2019年，32学时，90~100人

目前研究兴趣主要集中在能源环境功能材料的制备与性能研究，重点包括：

1. 环境与能源光（电）催化：主要关注于新型TiO₂和金属卤素钙钛矿光（电）催化材料的制备、能级工程、电荷转移机理，以及在环境催化，CO₂还原以及高附加值有机物合成等方面应用；

2. 电化学储能材料和器件：新型锂离子电池以及铝离子电池的正负极材料和电解液的优化；

3. 胶体颗粒的自组装合成：重点关注液相中自下而上构建多级结构的自组装合成、调控和机理研究，以及在光（电）催化和电化学储能的应用。

论文目录：https://sc.panda321.com/citations?hl=zh-CN&user=PAdf4JkAAAAJ

近五年发表的学术论文

电化学储能

1. C. Yang, D. Ma, J. Yang, M. Manawan, T. Zhao, Y. Feng, J. Li, Z. Liu, Y. W. Zhang, R. B. Von Dreele, B. H. Toby, C. Ponce de León, J. H. Pan.* “Crystallographic Insight of Reduced Lattice Volume Expansion in Mesoporous Cu2+-Doped TiNb2O7 Microspheres during Li+ Insertion” Adv. Funct. Mater. 2023, 33, 2212854.

2. D. Ma, D. Yuan, C. Ponce de León, X. Xia, Z. Jiang, J. H. Pan.* “Current Progress and Future Perspectives of Electrolytes for Rechargeable Aluminium-Ion Batteries” Energy Environ. Mater. 2023, 6 (1), e12301.

3. J. Li, D. Ma, G. Lu,* D. Fu, C. Ponce de León, J. H. Pan.* “Correlations of Precursor and Carbon Coating with Electrochemical Property of 2D Graphitic Carbon Nitride (g-C3N4) Nanosheets as High-Reversibility Cathode of Non-Aqueous Al-Ion Batteries" J. Phys. Chem. C 2023, 已付印.

4. D. Ma, L. Lai, C. Ponce de León, J. H. Pan.* “Microwave-Assisted Self-Template Synthesis of Mesoporous Anatase TiO2 Spheres for Non-Aqueous Al-Ion Batteries: Textural Optimization and Enhanced Reversible Al3+ Storage” Sustain. Mater. Technol. 2022, 32, e00419.

5. D. Ma, J. Yang, M. Manawan, C. Yang, J. Li, Y. Liang, T. Feng, Y. W. Zhang, J. H. Pan.* “Visualizing Crystal Structure Evolution of Electrode Materials upon Doping and during Charge/Discharge Cycles in Lithium-Ion Batteries” STAR Protocols 2022, 3 (1), 101099.

6. D. Ma, J. Li, J. Yang, C. Yang, M. Manawan, Y. Liang, T. Feng, Y. W. Zhang, J. H. Pan.* “Solid-State Self-Template Synthesis of Ta-Doped Li2ZnTi3O8 Spheres for Efficient and Durable Lithium Storage” iScience 2021, 24 (9), 102991.

7. D. Ma, J. Schneider, W. I. Lee,* J. H. Pan.* “Controllable Synthesis and Self-Template Phase Transition of Hydrous TiO2 Colloidal Spheres for Photo/Electrochemical Applications” Adv. Colloid Interface Sci. 2021, 295, 102493.

8. K. Li, X. Dai, M. Manawan, Q. Wang,* J. H. Pan.* “Unveiling the Formation Mechanism and Phase Purity Control of Nanostructured Li4Ti5O12 via Hydrothermal Process” Cryst. Growth Des. 2021, 21 (9), 5440−5450.

9. R. Qian, C. Yang, D. Ma, K. Li, T. Feng, J. Feng,* J. H. Pan.* “Robust Lithium Storage of Block Copolymer-Templated Mesoporous TiNb2O7 and TiNb2O7@C Anodes Evaluated in Half-Cell and Full-Battery Configurations” Electrochim. Acta 2021, 379, 138179.

10. D. Ma, Y. Feng, B. Zhang, J. Feng,* J. H. Pan* “Concurrent Ce Doping and in-situ Carbon Coating of Li2MnSiO4 Nanoparticles with Enhanced Capacity via a Rapid Microwave-Assisted Sol-Gel Process” Scripta Mater. 2021, 193, 122–126.

11. D. Ma, K. Li, J. H. Pan.* “Ultraviolet-Induced Interfacial Crystallization of Uniform Mesoporous Biphasic TiO2 Spheres for Durable Lithium-Ion Battery” ACS Appl. Energy Mater. 2020, 3 (5), 4186−4192.

12. T. Zhang, K. Li, J. H. Pan.* “Annealing Temperature-Dependent Electrochemical Properties of Aeroxide P25 TiO2 Nanoparticles as Anode Material for Lithium Storage” Prog. Nat. Sci.-Mater. Int. 2019, 29 (6), 679−684.

13. H. Zong, X. Xia, Y. Liang, S. Dai,* A. Alsaedi, T. Hayat, F. Kong,* J. H. Pan.* “Designing Function-Oriented Artificial Nanomaterials and Membranes via Electrospinning and Electrospraying Techniques” Mater. Sci. Eng. C 2018, 92, 1075−1091.

半导体光电化学

1. M. Sboui, W. Niu, G. Lu,* K. Zhang, J. H. Pan.* “Electrically Conductive TiO2/CB/PVDF Membranes for Synchronous Cross-Flow Filtration and Solar Photoelectrocatalysis” Chemosphere 2023, 310, 136753.

2. M. Guli, E. T. Helmy, J. Schneider, G. Lu,* J. H. Pan.* “Characterization Methodology and Activity Evaluation of Solar-Driven Catalysts for Environmental Remediation” Top. Curr. Chem. 2022, 380 (5), 38.

3. E. T. Helmy, M. A. Ali, M. A. Ayyad, H. G. M. Bakr, R. S. Varma, J. H. Pan.* “Molluscicidal and Biochemical Effects of Green-Synthesized F−Doped ZnO Nanoparticles against Land Snail Monacha Cartusiana under Laboratory and Field Conditions” Environ. Pollut. 2022, 308, 119691.

4. M. Sboui, H. Lachheb, M. Swaminathan, J. H. Pan.* “Low-temperature deposition and crystallization of RuO2/TiO2 on cotton fabric for efficient solar photocatalytic degradation of o-toluidine” Cellulose 2022, 29 (2), 1189−1204.

5. J. H. Pan,* J. Schneider,* W. Y. Teoh.* “Photocatalysis for Environmental Remediation: From Lab to Industry and Beyond” Chemosphere 2022, 286, 131704. (Editorial)

6. T. Zhao, G. Zhou, R. Qian, Y. Wang, W. I. Lee,* J. H. Pan.* “Mesoporous WO3/TiO2 Spheres with Tailored Surface Properties for Concurrent Solar Photocatalysis and Membrane Filtration” Chemosphere 2021, 263, 128344. (ESI高被引论文)

7. E. T. Helmy, E. M. Abouellef, U. A. Soliman, J. H. Pan.* “Green Synthesis of S-Doped TiO2 Nanoparticles and Their Photocatalytic, Antimicrobial and Antioxidative Activities under Sunlight Illumination” Chemosphere 2021, 271, 129524.

8. G. Zhou, T. Zhao, O. Wang, X. Xia, J. H. Pan.* “Bi2Se3, Bi2Te3 Quantum Dot−Sensitized Rutile TiO2 Nanorod Arrays for Enhanced Solar Photoelectrocatalysis in Azo Dye Degradation” J. Phys. Energy 2021, 3 (1), 014003.

9. J. Guan, J. H. Pan,* Z. Li.* “Innovative Utilization of Molecular Imprinting Technology for Selective Adsorption and (Photo)catalytic Eradication of Organic Pollutants” Chemosphere 2021, 365, 129077.

10. Y. Ding, Z. Q. Li, I. S. Yang, S. Y. Dai,* D. W. Bahnemann, W. I. Lee,* J. H. Pan.* “Nanoporous TiO2 Spheres with Tailored Textural Properties: Controllable Synthesis, Formation Mechanism, and Photochemical Applications” Prog. Mater. Sci. 2020, 109, 100620. (ESI高被引论文)

11. T. Zhao, R. Qian, Y. Tang, J. Yang, W. I. Lee,* J. H. Pan.* “Controllable Synthesis and Crystallization of Nanoporous TiO2 Deep-Submicrospheres and Nanospheres via an Organic Acid-Mediated Sol-Gel Process” Langmuir 2020, 36 (25), 7447−7455.

12. Y. Wang, W. Ye, X. Yang, E. Rezaee, H. Shan, S. Yang, S. Cai, J. H. Pan,* J. Xu,* Z. X. Xu.* “Hole Transport Layers Based on Metal Schiff Base Complexes in Perovskite Solar Cells” Synth. Met. 2020, 259, 116248.

13. M. Li, Q. Hu, H. Shan, Q. Chen, X. Wang, J. H. Pan,* Z. X. Xu.*.”In Situ Synthesis of N-CoMe2Pc/rGO Nanocomposite with Enhanced Photocatalytic Activity and Stability in Cr(VI) Reduction” J. Chem. Phys. 2020, 152 (15), 154702.

14. X. Xia, J. H. Pan,* X. Pan, L. Hu, J. Yao, Y. Ding, D. Wang, J. Ye,* S. Dai.* “Photochemical Conversion and Storage of Solar Energy” ACS Energy Lett. 2019, 4 (2), 405−410.

15. Q. Hu, E. Rezaee, Q. Dong, H. Shan, Q. Chen, L. Wang, B. Liu, J. H. Pan,* Z. X. Xu.* “P3HT/Phthalocyanine Nanocomposites as Efficient Hole‐Transporting Materials for Perovskite Solar Cells” Solar RRL 2019, 3 (1), 1800264.

16. R. Qian, H. Zong, J. Schneider, T. Zhao, G. Zhou, J. Yang,* D. W. Bahnemann,* J. H. Pan.* “Charge Carrier Trapping, Recombination and Transfer during TiO2 Photocatalysis: An Overview” Catal. Today 2019, 335, 78−90. (热点论文, ESI高被引论文)

17. H. Zong, T. Zhao, G. Zhou, R. Qian, J. H. Pan.* “Revisiting Structural and Photocatalytic Properties of g-C3N4/TiO2: Is Surface Modification of TiO2 by Calcination with Urea an Effective Route to “Solar” Photocatalyst?” Catal. Today 2019, 335, 252−261.

18. G. Zhou, T. Zhao, R. Qian, X. Xia,* S. Dai, A. Alsaedi, T. Hayat, J. H. Pan.* “Decorating Anatase (001) Dominant TiO2 Nanoflakes Array with Uniform WO3 Clusters for Enhanced Photoelectrochemical Water Decontamination” Catal. Today 2019, 335, 365−371.

19. J. H. Pan,* Z. Jiang, D. W. Bahnemann. “Advances in Photo(electro)catalysis for Environmental Applications and Chemical Synthesis: IPS-22 Overview” (Editorial) Catal. Today 2019, 335, 1−2.

20. R. Zhou,* Y. Yin, D. Long, J. Cui, H. Yan, W. Liu, J. H. Pan.* “PVP-Assisted Laser Ablation Growth of Ag Nanocubes Anchored on Reduced Graphene Oxide (rGO) for Efficient Photocatalytic CO2 Reduction” Prog. Nat. Sci.−Mater. 2019, 29 (6), 660−666.

21. E. Rezaee, X. Liu; Q. Hu; L. Dong; Q. Chen, J. H. Pan,* Z. X. Xu.* “Dopant-Free Hole Transporting Materials for Perovskite Solar Cells” Solar RRL 2018, 2 (11), 1800200.

22. X. Jiang, M. Manawan, T. Feng, R. Qian, T. Zhao, G. Zhou, F. Kong,* Q. Wang,* S. Dai, J. H. Pan.* “Anatase and Rutile in Evonik Aeroxide P25: Heterojunctioned or Individual Nanoparticles?” Catal. Today 2018, 300, 12−17. (Google搜索Evonik Aeroxide P25，在7万多搜索结果中常年稳居前五，ESI高被引论文)