来壮壮

发布时间:2025-09-05浏览次数:12

姓   名

来壮壮

办公地点

实训楼3号楼3421

办公电话

15002169220

电子邮箱

zzlai@sues.edu.cn

毕业学校

华东理工大学

研究方向

  

能源与环境催化等领域中的第一性原理计算和微观反应动力学:

1.多相催化反应动力学理论

2. 复杂催化材料体系的反应机制研究

3. 人工智能/活性理论驱动的催化剂理性设计


个人简历

学习与工作经历

2025.06--至今,     上海工程技术大学,化学化工学院,副教授

2022.01--2025.06    华东理工大学,博士后(合作导师:王海丰教授)

2016.09--2022.01    华东理工大学,工业催化,博士(导师:胡培君/王海丰教授).

2012.09-2016.06     湘潭大学,化学工程与工艺,学士


承担项目

[1]  国家自然科学基金委员会,青年项目(22203031)2023.01-2025.12,主持

[2] 上海市“超级博士后”激励计划项目(2022156)2023.01--2024.12,主持

[3]  D类人才岗位配套经费,2025.06-2028.06,主持

[4]  科学技术部,国家重点研发计划项目(2021YFA1500700),2022.01-2026.12,参与

[5]  国家自然科学基金委员会,面上项目(22473043),2025.01-2028.12,参与

[6]  国家自然科学基金委员会,重大研究计划-集成项目(92045303)2021.01-2021.12,参与

[7] 国家自然科学基金委员会,面上项目(21873028),2019.01-2022.12,参与


荣誉奖项

2025年入选校D类人才计划


代表性研究成果

[1] Danfeng Xiong, Zhuangzhuang Lai*, Jianfu Chen, Haiyang Yuan, Haifeng Wang*. Ketene Conversion Chemistry within Mordenite Zeolite: Pore-Size Dependent Reaction Mechanism, Product Selectivity and Catalytic Activity. Journal of the American Chemical Society, 2025, 147, 17303-17314.

[2] Jinshi Dong*, Ting Li, Shengtong Li, Panpan Chang, Qianqian Jin, Jiaqiang Yang*, Zhuangzhuang Lai*. Local Environment and Electronic Structure of Pt-TiO2 Catalysts Define the Reactivity of CO Oxidation and C3H8 Combustion: The Crystal Phase of TiO2 Determining.  ACS Catalysis, 2025, 15, 15794-15807.

[3] Zhuangzhuang Lai, Jianfu Chen, Menglei Jia, Peijun Hu, Haifeng Wang*. Universal Skeleton Feature of the Three-Dimensional Volcano Surface and the Thermodynamic Rule in Locating the Catalyst in Heterogeneous Catalysis. ACS Catalysis, 2022, 12, 247-258.

[4] Zhuangzhuang Lai, Ningling Sun, Jiamin Jin, Jianfu Chen, Haifeng Wang*, P. Hu*. Resolving the Intricate Mechanism and Selectivity of Syngas Conversion on Reduced ZnCr2Ox: A Quantitative Study from DFT and Microkinetic Simulations. ACS Catalysis, 2021, 11, 12977-12988.

[5] Zhuangzhuang Lai, Haifeng Wang*. General Rules of Active Zone on the Three-Dimensional Volcano Surface Enables Rapid Location of Efficient Catalyst. Journal of Catalysis, 2023, 417, 453-461.

[6] Zhuangzhuang Lai#, Jie Xia#, Menglei Jia, Jianfu Chen*, Haifeng Wang*. General Rules of Coverage-Affected Activity Trends and a Widened Optimal Adsorption Energy Zone in Locating the Catalyst. Journal of Physical Chemistry C, 2024, 128, 10421-10427. 

[7] Aoran Li, Zhuangzhuang Lai#, *, Haifeng Wang*. Optimization of Activity and Selectivity for Syngas-to-Ethanol Conversion on Metal-Based Catalysts via the First-Principles Microkinetic Simulations. Molecular Catalysis, 2024, 564, 114314.

[8] Ning Sun#, Zhichuan Zheng#, Zhuangzhuang Lai#, Junjie Wang, Peng Du, Tianping Ying*, Haifeng Wang*, Jianchun Xu, Runze Yu, Ke Bi, Ming Lei*, Kai Huang*. Augmented Electrochemical Oxygen Evolution by d-p Orbital Electron Coupling. Advanced Materials, 2024, 36, 2404772.

[9] Ning Sun#, Zhuangzhuang Lai#, Wenbo Ding, Wenbo Li, Tianyi Wang, Zhichuan Zheng, Bowen Zhang, Xiangjiang Dong, Peng Wei, Peng Du, Zhiwei Hu, Chih-Wen Pao, Wei-Hsiang Huang, Haifeng Wang*, Ming Lei, Kai Huang*, Runze Yu*. Alkali Metals Activated High Entropy Double Perovskites for Boosted Hydrogen Evolution Reaction. Advanced Science, 2024, 11, 2406453.

[10] Lei Chen#, Jing Xia#, Zhuangzhuang Lai#, Dandan Wu, Ji Zhou, Shang Chen, Xiaodong Meng, Zhongli Wang, Haifeng Wang, Lirong Zheng, Linli Xu, Xian-Wei Lv*, Christopher W. Bielawski, Jianxin Geng*. Coordinatively Unsaturated Co SACs Enhance the Performance of Lithium-Sulfur Batteries by Triggering Strong d-p Orbital Hybridization. ACS Nano, 2024, 18, 31123-31134.

[11] Xuequan Sun#, Zhuangzhuang Lai#, Min Ding#, Xiang Zheng*, Haifang Mao, Wangcheng Zhan, Li Wang, Yun Guo, Haifeng Wang*, Yanglong Guo*, Aiyong Wang*. Epoxidation of Propylene by Molecular Oxygen at Low Temperature over AgCl-Modified Ag-Cu Bimetallic Catalyst. Journal of Catalysis, 2025, 443, 115981.

[12]  Zehui Sun#, Zhuangzhuang Lai#, Yingying Zhao, Jianfu Chen, Wei Ma*. Clarifying Sequential Electron-Transfer Steps in Single Nanoparticle Electrochemical Process for Identifying the Intrinsic Activity of Electrocatalyst. Chinese Journal of Catalysis, 2024, 60, 262-271.

[13] Chunguang Dong#, Zhuangzhuang Lai#, Haifeng Wang*. Design of MoS2 Edge-Anchored Single-Atom Catalysts for Propane Dehydrogenation Driven by DFT and Microkinetic Modeling. Physical Chemistry Chemical Physics, 2024, 26, 5303-5310.

[14] Jinshi Dong#*, Zhuangzhuang Lai#, Shijun Huang, Shengtong Li, Peijun Hu, Haifeng Wang, Jianfu Chen*. An ab initio Microkinetic Study of Propane Combustion over Adjacent Pt1 on CeO2(110) Surface. Inorganic Chemistry Communications, 2023, 157, 111440.

[15] Jinshi Dong*, Shijun Huang, Shengtong Li, Panpan Chang, Zhuangzhuang Lai*, Haifeng Wang, Jianfu Chen*. Microkinetic Analysis of Propane Combustion over Pt-CeO2 Catalysts: A Case Study of Pt Size-Dependent Performance. Molecular Catalysis, 2025, 573, 114805.