郑磊，研究员，博士生导师。2016年于中国科学院大连化学物理研究所获得硕士学位，2020年于德国卡尔斯鲁厄理工学院获得博士学位，2021-2023以Research Fellow身份在意大利米兰理工大学工作。2023年9月加入中国科学院上海高等研究院工作，获中国科学院引才计划B类项目、上海市白玉兰人才计划青年项目支持，并纳入中国科学院上海高等研究院“拔尖人才”计划支持。主要从事能源与环境相关催化转化研究，尤其是针对焦耳热催化转化及催化剂原位同步辐射表征研究。以第一作者在AIChE J., Chem. Eng. J., ACS Eng. Au等化工领域重要期刊发表论文10余篇。作为主要研究人员参与多项欧盟ERC项目（INTENT），德国DFG-CRC项目(Track-Act)，意大利MIUR-PRIN项目（PLUG-ＩＮ）及多项企业合作项目（Johnson Matthey, Daimler, SABIC等）。

1. 基于外场辅助等手段开发高性能催化剂制备用于含碳小分子催化转化
2. 发展新型焦耳热驱动强吸热催化过程实现碳减排及过程强化
3. 基于原位同步辐射吸收谱等技术探索催化反应机理

1. 中国科学院引才计划
2. 上海市白玉兰人才计划青年项目
3. 中国科学院上海高等研究院拔尖人才计划

1. 中国科学院引才计划B类, 中国科学院计划, 负责人, 2024-01--2026-12
2. 中国科学院上海高等研究院拔尖人才计划, 研究所自主部署, 负责人,2024-01--2026-12

[1] L. Zheng, M. Amvrosetti, E. Tronconi, Joule-heated catalytic reactors toward decarbonization ａｎｄ process intensification, ACS Engineering Au, 4 (2024) 4-21.
[2] L. Zheng, M. Ambrosetti, A. Beretta, G. Groppi, E. Tronconi, Electrified CO2 valorization driven by direct Joule heating of catalytic cellular substrates, Chemical Engineering Journal, 466 (2023) 143154-143162.
[3] L. Zheng, M. Ambrosetti, F. Zaio, A. Beretta, G. Groppi, E. Tronconi, Direct electrification of Rh/Al2O3 washcoated SiSiC foams for methane steam reforming: An experimental ａｎｄ modelling study, International Journal of Hydrogen Energy, 48 (2023) 14681-14696.
[4] L. Zheng, M. Ambrosetti, D. Marangoni, A. Beretta, G. Groppi, E. Tronconi, Electrified methane steam reforming with washcoated SiC foam for clean hydrogen production, AIChE Journal, 2022, doi.org/10.1002/aic.17620.
[5] L. Zheng, J-D. Grunwaldt ａｎｄ M. Casapu, Understanding the multiple interactions ｉｎ vanadium-based SCR catalysts during simultaneous NOx ａｎｄ soot abatement, Catalysis Science & Technology, 12 (2022) 3969-3981.
[6] L. Zheng, A. Zimina, J-D. Grunwaldt ａｎｄ M. Casapu, Hydrocarbon ａｎｄ Soot Oxidation Over Cerium ａｎｄ Iron Doped Vanadium-SCR Catalysts, ChemCatChem, 12 (2020) 6272-6284.
[7] L. Zheng, M. Casapu, M. Stehle, O. Deutschmann ａｎｄ J.-D. Grunwaldt, Selective catalytic reduction of NOx with ammonia ａｎｄ hydrocarbon oxidation over V2O5-MoO3/TiO2 ａｎｄ V2O5–WO3/TiO2 SCR catalysts, Topics ｉｎ Catalysis, 62 (2019) 129-139.
[8] L. Zheng, H. Li, H. Yu, G. Kang, T. Xu, J. Yu, X. Li ａｎｄ H. Xu, “Modified” Liquid-liquid Displacement Porometry ａｎｄ Its Applications ｉｎ Pd-composite membranes, Membranes, 8 (2018) 29-44.
[9] L. Zheng, H. Li ａｎｄ H. Xu, Direct defect repairing approach for high selectivity ａｎｄ thermally stability Pd composite membranes, International Journal of Hydrogen Energy, 41 (2016) 18522-18532.
[10] L. Zheng, H. Li ａｎｄ H. Xu, “Defect-free” interlayer with a smooth surface ａｎｄ controlled pore-mouth size for thin ａｎｄ thermally stable Pd composite membranes, International Journal of Hydrogen Energy, 41 (2016) 1002-1009.
[11] A. Lanza, L. Zheng, R. Matarrese, L. Lietti, J.-D. Grunwaldt, S.A. Clave, J. Collier, A. Beretta, HCl-doping of V/TiO2-based catalysts reveals the promotion of NH3-SCR ａｎｄ the rate limiting role of NO oxidative activation, Chemical Engineering Journal, 414 (2021) 12893.
[12] DE. Doronkin, F. Benzi, L. Zheng, DI. Sharpa, L. Amidani, F. Studt, PW. Roesky, M. Casapu, O. Deutschmann, J-D. Grunwaldt, NH3-SCR over V-W/TiO2 investigated by operando X-ray absorption ａｎｄ emission spectroscopy, Journal of Physical Chemistry C, 123 (2019) 14338-14249.
[13] J. Yu, M. Yang, J. Zhang, Q. Ge, A. Zimina, I. Pruessmann, L. Zheng, J.-D. Grunwaldt, J. Sun, Stabilizing Cu+ ｉｎ Cu/SiO2 with a shattuckite-ｌｉｋｅ structure boosts CO2 hydrogenation into methanol, ACS Catalysis, 10 (2020) 14694-14706.