IntroductionChen Wei is an associate professor and holds a Ph.D. in Science. His primary research focus is on the development of a new generation of super-stable mineralized materials for the removal of heavy metal contaminants. In the past five years, he has published over 30 papers in mainstream chemical engineering journals such as Applied Catalysis B: Environmental, Chemical Engineering Journal, Chemical Engineering Science, and ACS Sustainable Chemistry & Engineering. He has applied for more than 20 national invention patents, with 12 granted, and co-authored three English monographs. Chen serves as the deputy director of the Testing and Evaluation Center of the National Key Laboratory Base, as well as a committee member of the CCAA Environmental and Sustainable Development Professional Committee and the Habitat Environment Quality Professional Committee. He has undertaken eight projects, including joint fund projects from the National Natural Science Foundation of China, youth fund projects, general projects from the Beijing Natural Science Foundation, independent projects from the Quzhou Institute of Resource Chemical Innovation, and industry-commissioned horizontal engineering projects. As a core member, he has participated in four projects, including national key research and development programs and industry-commissioned projects. During his in-depth industry-academia-research cooperation with enterprises in 2019, Chen was selected for the Zhishui Yingcai talent program in Rugao, Jiangsu Province, and was awarded the honorary title of Advanced Individual by Changjiang Town, Rugao City. In 2020, he completed one scientific and technological achievement appraisal (ranked third) by the China Petroleum and Chemical Industry Federation. Chen has completed the construction of a pilot plant for the production of 1,000 tons of cellulose esters per year and conducted field trials of ultra-stable mineralized materials for soil remediation and improvement. EducationWork ExperienceSocial PositionSocial ActivitiesResearchA New Generation of Super-Stable Mineralized Materials TeachingPostgraduatesFundingVertical ProjectHorizontal ProjectPublicationsThe latest ten papers: [1] Precise Gradient Separation of Nanoparticles Using Reduced Graphene Oxide-Polyoxomolybdate Membranes; Yixin Yang, Zhao Wan-Lei, Wei Chen,* and Yu-Fei Song*, SCIENCE CHINA Chemistry,2024. 已接收 [2] Three-Dimensional Hierarchical Membrane with Dual Active Sites for Ozone Decomposition; Hongqiang Li, Xiao Jiang, Ruoxuan Zheng, Wan-Lei Zhao, Wei Chen,* Sai An,* Yu-Fei Song*,Ind. Eng. Chem. Res. 2024, 63, 26, 11496–11504 [3] Interfacial Interactions of Polyoxometalate and Au0Pdδ+ Alloy Boosting Aerobic Oxidation of Alcohols; Hongqiang Li, Wan-Lei Zhao, Wei Chen*, Ruoxuan Zheng, Sai An, Yu-Fei Song*, Chemical Engineering Science, 2024,298, 120407 [4] Simultaneous Super-Stable Mineralization of Pb2+, Cd2+ and Cu2+ Using MIL-101(Fe)@ MgFe-LDH; Haoran Wang, Tong Lin, Tong He, Sai An,* Wei Chen,* and Yu-Fei Song*, Separation and Purification Technology, 2025, 353, 128263 [5] Polyoxometalate Clusters Confined in rGO Membranes for Effective Ion Sieving and Desalination, Yixin Yang, Wan-Lei Zhao, Yubing Liu, Qin Wang, Ziheng Song, Qinghe Zhuang, Wei Chen*, and Yu-Fei Song*, Advance Science, 2024, 202402018. [6] Molecular-Scale Co-Assembly Membranes Derived from Keplerate Cluster: Carbonic Anhydrase-Mimicking Nanocapsules for Enhanced CO2/N2 Separation, Wan-Lei Zhao, Hongqiang Li, Ruoxuan Zheng, Yixin Yang, Wei Chen*, and Yu-Fei Song*, SCIENCE CHINA Chemistry, 2024. [7] Pyrazole-3,5-dicarboxylic acid intercalated LDH: A highly selective structured adsorbents for Cu2+ ions removal,Ruoxuan Zheng, Wan-Lei Zhao, Hongqiang Li, Hanbin Hu, Tong Lin, Wei Chen*, and Yu-Fei Song*, Separation and Purification Technology, 2024, 346, 127532. [8] Recent Progress of Remediating Heavy Metal Contaminated Soil Using Layered Double Hydroxides as Super-Stable Mineralizer. Tong Lin, Haoran Wang, Tianyang Shen, Zhuoqun Deng, Ruifa Chai, Xinyuan Sun, Dongyuan Cui, Sai An*, Wei Chen*, and Yu-Fei Song, CHIMIA, 2023, 77(11): 733-741. [9] Directional activation of oxygen by the Au-loaded ZnAl-LDH with defect structure for highly efficient photocatalytic oxidative coupling of methane. Small, 2024, 2310857. [10] Revisiting the Super-stable Mineralization Mechanism of CaAl-LDHs for Cu2+ and Complete Removal of Cu2+ by Structured CaAl-LDHs. Tong Lin, Zhuoqun Deng, Tianyang Shen, Haoran Wang, Xinyuan Sun, Ruoxuan Zheng, Wei Chen*, Sai An*, Yu-Fei Song,* Chemical Engineering Science, 2024, 288: 119822. AwardsPatentHonor RewardAdmissions Information |