林海平，陕西师范大学/物理学与信息技术学院/凝聚态物理专业，教授。2003年获得青岛大学学士学位、2004年获得英国利物浦大学（The University of Liverpool）硕士学位（优秀毕业生）、2008年获得英国利物浦大学博士学位。硕、博导师为英国皇家科学会成员Werner Hofer教授。博士学习期间在德国马普学会Fritz-Haber研究所Matthias Scheffler教授和Karsten Reuter教授团队（2005-2006）进行了为期1年的合作培养。博士后工作期间在丹麦工业大学（Technical University of Denmark）Jens Nørskov教授课题组（2008-2009）进行了为期1年的学术访问。回国后联合使用第一性原理计算、机器学习数据分析和实验合成研究方法，对当前关键的物理、化学、材料和信息工程问题进行多维度的科学研究并提出解决方案。目前已在包括Nature Chemistry、Nature Communications、Journal of the American Chemical Society、Angewandte Chemie、Advanced Materials等国际权威学术期刊发表SCI论文120余篇，高被引论文8篇，H index = 39。

联系方式：hplin@snnu.edu.cn

课题组主页：https://www.x-mol.com/groups/linhaiping

科研方向：

1. 多尺度计算模拟方法在催化过程中的应用

（1）微观尺度：基于第一性原理计算，探究热-电-光多场耦合条件下的基元催化过程及其反应机理。

（2）介观尺度：结合蒙特卡洛模拟与机器学习算法，研究材料的生长动力学、自组装行为及催化反应过程。

2. 能源分子高效转化催化剂的实验研究

（1）开发具有光-电-热多场协同催化功能的新型催化剂，应用于水分解制氢、二氧化碳还原及合成氨等关键能源转化反应。

（2）设计并制备基于生物材料-纳米材料复合体系的高效多功能催化剂，探索其在能源转化领域的应用。

3. 钼酸盐结晶动力学的机制与调控技术研究

（1）结合第一性原理、深度学习和增强采样技术，建立面向钼酸盐结晶过程的机器学习势场模型，实现介观尺度晶体成核-生长全过程计算模拟。

（2）基于高通量实验平台，发展高性能的钼酸盐结晶助剂和晶体调控工艺。

主持的科研项目：

1. 国家自然科学基金面上项目：以热-电串联催化机制为导向的电化学析氧催化剂材料的理性设计，22373063，2024.01–2027.12

2. 国家自然科学基金面上项目：应用于电解水析氢的新型无机复合材料的理性设计与机理研究，21771134，2018.01–2021.12

3. 陕西省秦创原引用高层次创新创业人才项目：2021.01–2024.01

4. 中央高校交叉融合团队项目：高效电解水催化剂材料的理性设计与实验发展，GK202203002，2022.01–2024.12

5. 校企合作项目：钼酸铵生产过程中降钾新工艺的研究与应用，2024.01–2025.12

6. 江苏省自然科学基金青年项目：STM针尖效应的计算分析及其功能化设计的计算模拟，BK20150305，2015.07–2018.06

7. 苏州市高新区科技创新创业领军人才项目：2013.07–2015.06

学术兼职：

1. Chinese Chemical Letters青年编委

2. Nature Communications、Journal of the American Chemical Society、Joule、Energy & Environmental Science、Advanced Energy Materials等国际权威期刊的审稿人。

代表性科研论文：

[59] J. Bo, Y. Wang, J. Wang, G. Zhang, Q. Yu, X. Fan*, H. Lu*, H. Lin*, Advancing oxygen evolution reaction efficiency in iron phthalocyanines: axial coordination as a key to structural and electronic tuning, Journal of Materials Chemistry A, 13 (2025) 4159-4166.

[58] J. Han, H. Tan, K. Guo, H. Lv, X. Peng, W. Zhang, H. Lin*, U. Apfel, R. Cao*, The "Pull Effect" of a Hanging Zn^II on Improving the Four-Electron Oxygen Reduction Selectivity with Co Porphyrin, Angewandte Chemie-International Edition, (2024), e202409793.

[57] Z.Z. Liang, G.J. Zhou, H. Tan, Y.H. Mou, J.L. Zhang, H.B. Guo, S.J. Yang, H.T. Lei, H.Q. Zheng*, W. Zhang, H. Lin*, R. Cao*, Constructing Co₄(SO₄)₄ Clusters within Metal-Organic Frameworks for Efficient Oxygen Electrocatalysis, Advanced Materials, (2024), 2408094.

[56] Y. Wang, T. Yang, X. Fan, Z. Bao, A. Tayal, H. Tan, M. Shi, Z. Liang, W. Zhang, H. Lin*, R. Cao, Z. Huang*, H. Zheng*, Anchoring Fe Species on the Highly Curved Surface of S and N Co-Doped Carbonaceous Nanosprings for Oxygen Electrocatalysis and a Flexible Zinc-Air Battery, Angewandte Chemie International Edition, 63 (2024), e202313034.

[55] L.S. Zhang, Z.W. Ma, Z.Z. Wu, Y.X. Liu, J. Bai, S.H. Zhang*, E. Debroye, W. Fan, H. Lin*, T.X. Liu*, Atomically Dispersed Platinum on Conjugated Polymers with Tailored Cation-π Interactions and Microstructures for Hydrogen Evolution Electrocatalysis, Advanced Functional Materials, (2024), 2404707.

[54] J. Bai, Y. Liu, Z. Ma, S. Zhang, G. Chao, H. Lin*, E. Debroye, L. Zhang*, T. Liu*, Cation-π interactions regulate electrocatalytic water oxidation over iridium single atoms supported on conjugated polymers, Science China-Chemistry, 67 (2024) 2063-2069.

[53] S. Liu, H. Tan, Y. Huang, Q. Zhang, H. Lin*, L. Li, Z. Hu, W. Huang, C. Pao, J. Lee, Q. Kong, Q. Shao, Y. Xu*, X. Huang*, Structurally-Distorted RuIr-Based Nanoframes for Long-Duration Oxygen Evolution Catalysis, Advanced Materials, 35 (2023) 2305659.

[52] S. Li, Y. Liu, K. Feng*, C. Li, J. Xu, C. Lu, H. Lin*, Y. Feng, D. Ma*, J. Zhong*, High Valence State Sites as Favorable Reductive Centers for High-Current-Density Water Splitting, Angewandte Chemie International Edition, 62 (2023) e202308670.

[51] W. Qiao, X. Fan, W. Liu, F.N. Khan, D. Zhang, F. Han, H. Yue, Y. Li, N. Dimitratos, S. Albonetti, X. Wen, Y. Yang, F. Besenbacher, Y. Li, H. Niemantsverdriet, H. Lin*, R. Su*, Creating and Stabilizing an Oxidized Pd Surface under Reductive Conditions for Photocatalytic Hydrogenation of Aromatic Carbonyls, Journal of the American Chemical Society, 145 (2023) 5353-5362.

[50] K. Feng, R. Song, J. Xu, Y. Chen, C. Lu, Y. Li, W. Hofer, H. Lin*, Z. Kang*, J. Zhong*, The S-Fe(Ni) sub-surface active sites for efficient and stable overall water splitting, Applied Catalysis B: Environmental, 325 (2023) 122365.

[49] M. Wang, J. Wang, P. Huang, H. Lin*, Q. Li*, New strategies to improve two-electron oxygen reduction reaction selectivity of polypyrrole-based catalysts, Journal of Materials Chemistry A, 11 (2023) 2168-2177.

[48] C. Deng, J. Wang, H. Zhu, C. Xu, X. Fan, Y. Wen, P. Huang, H. Lin*, Q. Li*, L. Chi*, Constructing Two-Dimensional Distorted Kagome Lattices on Ag(111), The Journal of Physical Chemistry Letters, (2023) 9584-9589.

[47] Y. Zhao, X. Li, X. Fan, H. Wang, Y. Liu, Y. Chen, T. Yang, J. Ye, H. Huang, H. Li, X. Zhang, Y. Liu, H. Lin*, Y. Zhao*, Z. Kang*, Small-molecule Catalyzed H₂O₂ Production via A Phase-transfer Photocatalytic Process, Applied Catalysis B: Environmental, 314 (2022) 121499.

[46] X. Fan, S. Tan, J. Yang, Y. Liu, W. Bian, F. Liao*, H. Lin*, Y. Li*, From Theory to Experiment: Cascading of Thermocatalysis and Electrolysis in Oxygen Evolution Reactions, ACS Energy Letters, 7 (2022) 343-348.

[45] D. Yang, Z. Su, Y. Chen*, K. Srinivas*, X. Zhang, W. Zhang, H. Lin*, Self-reconstruction of a MOF-derived chromium-doped nickel disulfide in electrocatalytic water oxidation, Chemical Engineering Journal, 430 (2022) 133046.

[44] Y. Liu, X. Fan, W. Bian, Y. Yang, P. Huang, W.A. Hofer, H. Huang, H. Lin*, Y. Li*, S.-T. Lee, High-loading Fe-1 sites on vanadium disulfides: a scalable and non-defect-stabilized single atom catalyst for electrochemical nitrogen reduction, Journal of Materials Chemistry A, 10 (2022) 21142-21148.

[43] M. Zhang, W. Zhang, X. Fan, Y. Ma, H. Huang, X. Wang, Y. Liu*, H. Lin*, Y. Li, H. Tian*, M. Shao*, Z. Kang*, Chiral Carbon Dots Derived from Serine with Well-Defined Structure and Enantioselective Catalytic Activity, Nano Letters, 22 (2022) 7203-7211.

[42] R. Zhou, X. Fan, X. Ke, J. Xu, X. Zhao, L. Jia, B. Pan, N. Han, L. Li, X. Liu, J. Luo, H. Lin*, Y. Li*, Two-Dimensional Palladium–Copper Alloy Nanodendrites for Highly Stable and Selective Electrochemical Formate Production, Nano Letters, 21 (2021) 4092-4098.

[41] Z. Liang, N. Kong, C. Yang, W. Zhang, H. Zheng*, H. Lin*, R. Cao*, Highly Curved Nanostructures Coated Co, N-Doped Carbon Materials for Oxygen Electrocatalysis, Angewandte Chemie International Edition, 60 (2021) 1-7.

[40] Y. Xu*, X. Wang, D. Yang, Z. Tang, M. Cao, H. Hu, L. Wu, L. Liu, J. McLeod, H. Lin*, Y. Li, Y. Lifshitz*, T.-K. Sham, Q. Zhang*, Stabilizing Oxygen Vacancies in ZrO₂ by Ga₂O₃ Boosts the Direct Dehydrogenation of Light Alkanes, ACS Catalysis, 11 (2021) 10159-10169.

[39] Y. Han, J. Wang, L. Song, Y. Zheng, Y. Li, H. Lin*, Q. Li*, L. Chi*, A Fundamental Role of the Molecular Length in Forming Metal-Organic Hybrids of Phenol Derivatives on Silver Surfaces, The Journal of Physical Chemistry Letters,12 (2021) 1869-1875.

[38] Q. Dang, H. Lin (equal contribution), Z. Fan, L. Ma, Q. Shao, Y. Ji, F. Zheng, S. Geng, S.-Z. Yang*, N. Kong, W. Zhu, Y. Li*, F. Liao, X. Huang*, M. Shao*, Iridium metallene oxide for acidic oxygen evolution catalysis, Nature Communications, 12 (2021) 6007.

[37] D. Yang, Z. Su, Y. Chen*, K. Srinivas, J. Gao, W. Zhang, Z. Wang*, H. Lin*, Electronic Modulation of Hierarchical Spongy Nanosheets toward Efficient and Stable Water Electrolysis, Small, 17 (2021) 2006881.

[36] H. Lin, Z. Wang, H. Wang, J. Gao, H. Ding, Y. Xu, Q. Li, Q. Guo, Z. Ma*, X. Yang*, M. Pan*, In Situ Observation of Stepwise C-H Bond Scission: Deciphering the Catalytic Selectivity of Ethylbenzene-to-Styrene Conversion on TiO₂, Journal of Physical Chemistry Letters, 11 (2020) 9850-9855.

[35] L. Li, Y. Wen, H. Ming, H. Zhang, W. Bian, H. Lin* and Y. Yang*, Insight into the Li- and Zn-Ion Synergistic Effect for Benzoquinone-Based Anodes in Aqueous Batteries, ACS Applied Energy Materials, 3 (2020) 8309-8316.

[34] K. Feng, D. Zhang, F. Liu, H. Li, J. Xu, Y. Xia, Y. Li, H. Lin*, S. Wang, M. Shao*, Z. Kang*, J. Zhong, Highly Efficient Oxygen Evolution by a Thermocatalytic Process Cascaded Electrocatalysis Over Sulfur-Treated Fe-Based Metal-Organic-Frameworks, Advanced Energy Materials, 10 (2020) 2000184.

[33] B. Jiang, X. Fan, Q. Dang, F. Liao, Y. Li, H. Lin*, Z. Kang*, M. Shao*, Functionalization of metal oxides with thiocyanate groups: A general strategy for boosting oxygen evolution reaction in neutral media, Nano Energy, 76 (2020) 105079.

[32] N. Kong, X. Fan, F. Liu, L. Wang, H. Lin*, Y. Li*, S.-T. Lee, Single Vanadium Atoms Anchored on Graphitic Carbon Nitride as a High-Performance Catalyst for Non-oxidative Propane Dehydrogenation, ACS Nano, 14 (2020) 5772-5779.

[31] F. Liu, L. Song, Y. Liu, F. Zheng, L. Wang, K. Palotas, H. Lin*, Y. Li*, Using the N-N dipole as a theoretical indicator for estimating the electrocatalytic performance of active sites in the nitrogen reduction reaction: single transition metal atoms embedded in two dimensional phthalocyanine, Journal of Materials Chemistry A, 8 (2020) 3598-3605.

[30] Y. Xu, M. Chu, F. Liu, X. Wang, Y. Liu, M. Cao, J. Gong, J. Luo, H. Lin*, Y. Li, Q. Zhang*, Revealing the Correlation between Catalytic Selectivity and the Local Coordination Environment of Pt Single Atom, Nano Letters, 20 (2020) 6865-6872.

[29] P. Zeng, C. Liu, X. Zhao, C. Yuan, Y. Chen*, H. Lin*, L. Zhang*, Enhanced Catalytic Conversion of Polysulfides Using Bimetallic Co7Fe3 for High-Performance Lithium-Sulfur Batteries, ACS Nano, 14 (2020) 11558-11569.

[28] S. Bai, F. Liu, B. Huang, F. Li, H. Lin, T. Wu, M. Sun, J. Wu, Q. Shao, Y. Xu*, X. Huang*, High-efficiency direct methane conversion to oxygenates on a cerium dioxide nanowires supported rhodium single-atom catalyst, Nature communications, 11 (2020) 954.

[27] X. Yu, X. Li, H. Lin (equal contribution), M. Liu*, L. Cai, X. Qiu, D. Yang, X. Fan, X. Qiu, W. Xu*, Bond-Scission-Induced Structural Transformation from Cumulene to Diyne Moiety and Formation of Semiconducting Organometallic Polyyne, Journal of the American Chemical Society, 142 (2020) 8085-8089.

[26] B. Yang, N. Cao, H.X. Ju, H. Lin*, Y.Y. Li, H.H. Ding, J.Q. Ding, J.J. Zhang, C.C. Peng, H.M. Zhang, J.F. Zhu, Q. Li*, L.F. Chi*, Intermediate States Directed Chiral Transfer on a Silver Surface, Journal of the American Chemical Society, 141 (2019) 168-174.

[25] Y. Xu, W. Bian, Q. Pan, M. Chu, M. Cao, Y. Li, Z. Gong, R. Wang, Y. Cui, H. Lin*, Q. Zhang*, Revealing the Active Sites of Pd Nanocrystals for Propyne Semihydrogenation: From Theory to Experiment, ACS Catalysis, 9 (2019) 8471-8480.

[24] M. Sheng, B. Jiang, B. Wu, F. Liao, X. Fan, H. Lin*, Y. Li, Y. Lifshitz*, S.T. Lee, M. Shao*, Approaching the Volcano Top: Iridium/Silicon Nanocomposites as Efficient Electrocatalysts for the Hydrogen Evolution Reaction, ACS Nano, 13 (2019) 2786-2794.

[23] Z. Liang, X. Fan, H. Lei, J. Qi, Y. Li, J. Gao, M. Huo, H. Yuan, W. Zhang, H. Lin*, H. Zheng*, R. Cao*, Cobalt–Nitrogen-Doped Helical Carbonaceous Nanotubes as a Class of Efficient Electrocatalysts for the Oxygen Reduction Reaction, Angewandte Chemie International Edition, 57 (2018) 13187-13191.

[22] Q. Li, H. Lin*, R. Lv, M. Terrones, L. Chi, W.A. Hofer*, M. Pan*, Locally Induced Spin States on Graphene by Chemical Attachment of Boron Atoms, Nano Letters, 18 (2018) 5482-5487.

[21] Q. Li, J. Gao, Y. Li, M. Fuentes-Cabrera, M. Liu, X. Qiu, H. Lin*, L. Chi*, M. Pan*, Self-assembly directed one-step synthesis of [4]radialene on Cu(100) surfaces, Nature Communications, 9 (2018) 3113.

[20] Y. Liu, K. Palotas, X. Yuan, T. Hou, H. Lin*, Y. Li*, S.-T. Lee, Atomistic Origins of Surface Defects in CH₃NH₃PbBr₃ Perovskite and Their Electronic Structures, ACS Nano, 11 (2017) 2060-2065.

[19] B. Jiang, L. Yang, F. Liao, M. Sheng*, H. Zhao, H. Lin*, M. Shao*, A stepwise-designed Rh-Au-Si nanocomposite that surpasses Pt/C hydrogen evolution activity at high overpotentials, Nano Research, 10 (2017) 1749-1755.

[18] B. Jiang, Z. Tang, F. Liao*, H. Lin*, S. Lu, Y. Li, M. Shao*, Powerful synergy: efficient Pt-Au-Si nanocomposites as state-of-the-art catalysts for electrochemical hydrogen evolution, Journal of Materials Chemistry A, 5 (2017) 21903-21908.

[17] Y. Cheng, X. Fan, F. Liao, S. Lu, Y. Li, L. Liu, Y. Li*, H. Lin*, M. Shao*, S.-T. Lee, Os/Si nanocomposites as excellent hydrogen evolution electrocatalysts with thermodynamically more favorable hydrogen adsorption free energy than platinum, Nano Energy, 39 (2017) 284-290.

[16] B. Jiang, Y. Sun, F. Liao*, W. Shen, H. Lin*, H. Wang, M. Shao*, Rh-Ag-Si ternary composites: highly active hydrogen evolution electrocatalysts over Pt-Ag-Si, Journal of Materials Chemistry A, 5 (2017) 1623-1628.

[15] L. Zhu, H. Lin (equal contribution), Y. Li*, F. Liao, Y. Lifshitz, M. Sheng, S.-T. Lee*, M. Shao*, A rhodium/silicon co-electrocatalyst design concept to surpass platinum hydrogen evolution activity at high overpotentials, Nature Communications, 7 (2016) 12272.

[14] Z. Gong, B. Yang, H. Lin (equal contribution), Y. Tang, Z. Tang, J. Zhang, H. Zhang, Y. Li, Y. Xie, Q. Li, L. Chi, Structural Variation in Surface-Supported Synthesis by Adjusting the Stoichiometric Ratio of the Reactants, ACS Nano, 10 (2016) 4228-4235.

[13] Q. Li, B. Yang, H. Lin (equal contribution), N. Aghdassi, K. Miao, J. Zhang, H. Zhang, Y. Li, S. Duhm, J. Fan, L. Chi, Surface-Controlled Mono/Diselective ortho C-H Bond Activation, Journal of the American Chemical Society, 138 (2016) 2809-2814.

[12] B. Yang, H. Lin (equal contribution), K. Miao, P. Zhu, L. Liang, K. Sun, H. Zhang, J. Fan, V. Meunier, Y. Li, Q. Li, L. Chi, Catalytic Dealkylation of Ethers to Alcohols on Metal Surfaces, Angewandte Chemie-International Edition, 55 (2016) 9881-9885.

[11] M. Cao, Z. Tang, Q. Liu, Y. Xu, M. Chen, H. Lin*, Y. Li, E. Gross, Q. Zhang, The Synergy between Metal Facet and Oxide Support Facet for Enhanced Catalytic Performance: The Case of Pd-TiO₂, Nano Letters, 16 (2016) 5298-5302.

[10] B. Yang, J. Bjork, H. Lin, X. Zhang, H. Zhang, Y. Li, J. Fan, Q. Li, L. Chi, Synthesis of Surface Covalent Organic Frameworks via Dimerization and Cyclotrimerization of Acetyls, Journal of the American Chemical Society, 137 (2015) 4904-4907.

[9] H. Zhang, H. Lin, K. Sun, L. Chen, Y. Zagranyarski, N. Aghdassi, S. Duhm, Q. Li, D. Zhong, Y. Li, K. Muellen, H. Fuchs, L. Chi, On-Surface Synthesis of Rylene-Type Graphene Nanoribbons, Journal of the American Chemical Society, 137 (2015) 4022-4025.

[8] R. Ohmann, L.K. Ono, H.-S. Kim, H. Lin, M.V. Lee, Y. Li, N.-G. Park, Y. Qi, Real-Space Imaging of the Atomic Structure of Organic-Inorganic Perovskite, Journal of the American Chemical Society, 137 (2015) 16049-16054.

[7] C. Du, H. Lin*, B. Lin, Z. Ma, T. Hou, J. Tang, Y. Li*, MoS₂ supported single platinum atoms and their superior catalytic activity for CO oxidation: a density functional theory study, Journal of Materials Chemistry A, 3 (2015) 23113-23119.

[6] M. Ebrahimi, K. Huang, X. Lu, I.R. McNab, J.C. Polanyi, Z. Wagar, J. Yang, H. Lin, W.A. Hofer, Facile Charge-Displacement at Silicon Gives Spaced-out Reaction, Journal of the American Chemical Society, 133 (2011) 16560-16565.

[5] K.R. Harikumar, J.C. Polanyi*, A. Zabet-Khosousi, P. Czekala, H. Lin, W.A. Hofer, Directed long-range molecular migration energized by surface reaction, Nature Chemistry, 3 (2011) 400-408.

[4] K.R. Harikumar, L. Leung, I.R. McNab, J.C. Polanyi*, H. Lin, W.A. Hofer, Cooperative molecular dynamics in surface reactions, Nature Chemistry, 1 (2009) 716-721.

[3] D.X. Shi, W. Ji, X. Lin, X.B. He, J.C. Lian, L. Gao, J.M. Cai, H. Lin, S.X. Du, F. Lin, C. Seidel, L.F. Chi, W.A. Hofer, H. Fuchs, H.J. Gao, Role of lateral alkyl chains in modulation of molecular structures on metal surfaces, Physical Review Letters, 96 (2006).

[2] Z. Deng, H. Lin, W. Ji, L. Gao, X. Lin, Z.H. Cheng, X. He, J. Lu, D. Shi, W. Hofer, H.J. Gao*, Selective analysis of molecular states by functionalized scanning tunneling microscopy tips, Physical Review Letters, 96 (2006) 156102.

[1] C. Africh, H. Lin, M. Corso, F. Esch, R. Rosei, W. Hofer, G. Comelli*, Water production reaction on Rh(110), Journal of the American Chemical Society, 127 (2005) 11454-11459.