郑伟中
发布时间:2022-10-25   访问次数:11003   作者:



姓名:郑伟中

职称:特聘研究员、博士生导师

电子邮箱:wzzheng@ecust.edu.cn

 

个人简介

2022.07-至今      威尼斯886699,威尼斯886699,特聘研究员

2020.01-2022.06   威尼斯886699,威尼斯886699,化学工程,博士后,合作导师:钱锋院士

2014.09-2019.12   威尼斯886699,威尼斯886699,化学工程,博士,导师:赵玲教授、孙伟振教授

2018.09-2019.09   美国斯坦福大学,化学院,联合培养博士,导师:Michael D. Fayer院士

2010.09-2014.06   威尼斯886699,威尼斯886699,化学工程与工艺,学士

 

【研究方向】

面向我国化工过程及产品绿色化、低碳化、高值化发展战略需求,围绕化工复杂体系表界面特性识别与反应/传质过程强化等关键问题,开展跨尺度表界面特性定量识别、介质筛选与设计、反应/传质耦合调控、过程强化等科学与应用基础研究工作:

1.-液(固)复杂体系表界面特性识别与介质强化

·基于分子动力学模拟、DFT计算的表界面结构、反应与传递特性研究

·界面特征-介质结构-反应/传递强化的构效关系构建

·新型介质(催化剂、溶剂)的高通量筛选与理性设计

·过程反应/传递耦合调控与过程强化

2.聚合物体系复杂相互作用多尺度模拟与废弃聚合物循环升级利用

·聚合物体系复杂反应、传递以及聚合物溶解溶胀等理论与实验研究

·废弃聚合物解聚催化剂设计、工艺优化及反应/传质耦合调控

·废弃聚合物高值化利用新策略开发

 

【承担的项目】

1.国家自然科学基金青年基金

2.上海市“超级博士后”激励计划

3.第14批中国博士后科学基金站中特别资助

4.第68批中国博士后科学基金面上资助

5.化学工程联合国家重点实验室重点项目

6.重质油国家重点实验室开放基金

7.梅特勒托利多-校企联合项目

 

【学术成果】

累积发表SCI论文30余篇,其中第一/通讯作者20余篇包括J Am Chem Soc, AIChE J (4), Chem Eng Sci (6), Chem Eng J(2), Ind Eng Chem Res, ACS Catal, ACS Nano, JPCC, JPCB2等,申请发明专利7项,授权发明专利1项。相关成果获得中国石油和化学工业联合会CPCIF-Clariant可持续发展青年创新奖-卓越奖,中国化工学会化工与材料京博博士论文奖提名奖等。

1.         Zheng W#, Yamada SA#, Hung ST, Sun W, Zhao L, Fayer MD. Enhanced Menshutkin SN2 Reactivity in Mesoporous Silica: The Influence of Surface Catalysis and Confinement. Journal of the American Chemical Society, 2020, 142(12):5636-5648.

2.         Zheng, W., Ma, Z., Sun, W., & Zhao, L. Target highefficiency ionic liquids to promote H2SO4catalyzed C4 alkylation by machine learning. AIChE Journal, 2022, 68(7), e17698.

3.         Ma, Z., Sha, J., Zheng, W.*, Sun, W., Zhao, L. Effects of deep eutectic solvents on H2SO4catalyzed alkylation: Combining experiment and molecular dynamics simulation. AIChE Journal, 2022, 68(4), e17556.

4.         Zheng W, Wang Z, Sun W, Zhao L, Qian F. H2SO4-catalyzed isobutane alkylation under low temperatures promoted by long-alkyl-chain surfactant additives. AIChE Journal. 2021,67(10):e17349.

5.         Zheng W, Sun W, Zhao L et al. Understanding Interfacial Behaviors of Isobutane Alkylation with C4 Olefin Catalyzed by Sulfuric Acid or Ionic Liquids. AIChE Journal, 2018, 64(3): 950-960.

6.         Liu C, Ling Y, Wang Z, Zheng W*, Sun W*, Zhao L. Unveiling the microenvironments between ionic liquids and methanol for alcoholysis of poly (ethylene terephthalate). Chemical Engineering Science. 2022, 247:117024.

7.         Zheng W, Sun W, Zhao L, Qian F. Modeling the solid/liquid interfacial properties of methylimidazole confined in hydrophobic silica nanopores. Chemical Engineering Science. 2021, 231:116333.

8.         Zheng W, Sun W, Zhao L et al. Towards an Understanding of the Microstructure and Interfacial Properties of the Ionic Liquid/Sulfuric Acid Catalyst in Liquid-liquid Reactions. Chemical Engineering Science, 2019, 205:287-298.

9.         Zheng W#, Cao Piao#, Sun W, Zhao L et al. Experimental and modeling study of isobutane alkylation with C4 olefin catalyzed by Brønsted acidic ionic liquid/sulfuric acid. Chemical Engineering Journal. 2019, 377:119578.

10.     Zheng W, Sun W, Zhao L et al. Multi-scale modeling of isobutane alkylation with 2-butene using composite ionic liquids as catalyst. Chemical Engineering Science, 2018, 186: 209-218.

11.     Zheng W, Sun W, Zhao L et al. Screening of Imidazolium Ionic Liquids for the Isobutane Alkylation Based on Molecular Dynamic Simulation. Chemical Engineering Science, 2018, 183: 115-122.

12.     Zheng W, Sun W, Zhao L et al. Modeling of the interfacial behaviors for the isobutane alkylation with C4 olefin using ionic liquid as catalyst. Chemical Engineering Science, 2017, 166: 42-52.

13.     Zheng W, Sun W, Zhao L et al. Controllable Preparation of Nanoscale Metal-Organic Frameworks by Ionic Liquid Microemulsions. Industrial & Engineering Chemistry Research, 2017, 56(20): 5899-5905.

14.     Zheng W, Zhao L, Sun W, Qian F. Understanding the Confinement Effects and Dynamics of Methylimidazole in Nanoscale Silica Pores. The Journal of Physical Chemistry C. 2021, 125(13):7421-7430.