PENG, Meiwen

time:2024-06-06Hits:10设置


Meiwen Peng

Associate Professor

Meiwen Peng joined the Institute of Functional Nano & Soft Matter of Soochow University in 2024 and was appointed as an associate professor. In August 2020, he obtained his Ph.D. degree from Soochow University under the supervision of Prof. Lifeng Chi and Prof. Lin Jiang, and then conducted postdoctoral research at Soochow University and Nanyang Technological University (2023.01-2024.01) under the supervision of Prof. Lin Jiang and Prof. Xiaodong Chen.

RESEARCH INTERESTS

Dr. Meiwen Peng’s research focuses on the multi-scale controllable assembly, performance regulation, and application exploration of functional nanomaterials. Through methods such as 3D printing, freeze casting, and in-situ growth/assembly, we achieve the functionalization and stabilization of nanoparticle assembly systems, laying theoretical and experimental foundations for the design and manufacture of multi-scale ordered structures of nanomaterials. This enables strong coupling of their properties in optics, mechanics, electromagnetics, and transport, and explores applications in desalination, hydrovoltaic technology, energy catalysis, and smart sensing.

RESEARCH EXPERIENCES AND ACHIEVEMENTS

Since 2015, Dr. Meiwen Peng have published 10 scientific papers as the first author/corresponding author in high-level journals in the fields of chemistry and materials science such as Adv. Mater., ACS Nano, Adv. Funct. Mater., Adv. Sci., and Nano Energy. He has been granted three authorized invention patents.

SELECTED PUBLICATIONS

  1. H. Yang#, D. Li#, X. Zheng#, J. Zuo, B. Zhao, D. Li, J. Zhang, Z. Liang, J. Jin, S. Ju,M. Peng*, Y. Sun*, Lin Jiang*, High Freshwater Flux Solar Desalination via A 3D Plasmonic Evaporator with An Efficient Heat-Mass Evaporation InterfaceAdv. Mater.2023, 35, 2304699.

  2. M. Peng#, D. Shi#, Y. Sun#, J. Cheng, B. Zhao, Y. Xie, J. Zhang, W. Guo, Z. Jia*, Z. Liang*,L. Jiang*, 3D Printed Mechanically Robust Graphene/CNT Electrodes for Highly Efficient Overall Water SplittingAdv. Mater.2020, 32, 1908201.

  3. M. Peng#, Z. Wen#, L. Xie#, J. Cheng, Z. Jia, D. Shi, H. Zeng, B. Zhao, Z. Liang*, T. Li*, L. Jiang*, 3D Printing of Ultralight Biomimetic Hierarchical Graphene Materials with Exceptional Stiffness and ResilienceAdv. Mater.2019, 31, 1902930.

  4. D. Li#, Z. Liang#, H. Yang#, M. Zhang, K. Cao, B. Zhao, Y. Wang,M. Peng*, Y. Sun*, Lin Jiang*, Mutual Reinforcement of Evaporation and Catalysis for Efficient Freshwater–Salt–Chemical ProductionAdv. Funct. Mater.2023, 33, 2300353.

  5. H. Yang#, Y. Sun#,M. Peng*, M. Cai, B. Zhao, D. Li, Z. Liang,L. Jiang*, Tailoring the Salt Transport Flux of Solar Evaporators for a Highly Effective Salt-Resistant Desalination with High ProductivityACS Nano2022, 16, 2511-2520.

  6. B. Zhao#, J. Wu#, Z. Liang#, W. Liang, H. Yang, D. Li, W. Qin,M. Peng*,Y. Sun*, Lin Jiang*, A Bioinspired Hierarchical Fast Transport Network Boosting Electrochemical Performance of 3D Printed ElectrodesAdv. Sci.2022, 9, 2204751.

  7. M. Wu#, Z. Liang#,M. Peng#, B. Zhao, D. Li, J. Zhang*, Y. Sun*, Lin Jiang*, High Evaporation Rate and Electrical Conductivity Synergistically Boosting Porous rGO/CNT Film for Water Evaporation-Driven Electricity GenerationNano Energy2023, 116, 108771.

  8. M. Peng#, B. Zhao#, D. Shi, Y. Wang, D. Li, W. Liang, H. Yang, Z. Liang, Y. Sun*, Lin Jiang*, Enabling High Loading of Well-Dispersed Ni2CoP2Catalysts on A 3D-Printed Electrode for Efficient ElectrocatalysisJ. Mater. Chem. A2023, 11, 15394.

  9. M. Wu#,M. Peng#, Z. Liang#, Y. Liu, B. Zhao, D. Li, Y. Wang, J. Zhang*, Y. Sun*,L. Jiang*, Printed Honeycomb-Structured Reduced Graphene Oxide Film for Efficient and Continuous Evaporation-Driven Electricity Generation from Salt SolutionACS Appl. Mater. Interfaces2021, 13, 2698926997.

  10. M. Peng#, P. Xiao#, Y. Huang*, M. Cai, Y. Hou, J. Chen, Z. Liu, Z. Xiao*, T. Chen*, A Direct Microcontact Printing Induced Supramolecular Interaction for Creating Shape-Tunable Patterned Polymeric SurfacesJ. Mater. Chem. C2015, 3, 8659-8664.

CONTACT INFORMATION

Address: Ren’ai Road No.199, Suzhou Industrial park, Suzhou (215123)

Email: mwpeng@suda.edu.cn



Edited by Juan Yang

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