|Academic Profile |
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Prof Lou Xiong Wen
Professor, School of Chemical and Biomedical Engineering
|Xiong Wen (David) Lou was born in Zhejiang, China, in 1978. He received his B.Eng. (2002) and M.Eng. (2006) in chemical engineering from the National University of Singapore. He received his Ph.D. in chemical engineering from Cornell University (with Professor Lynden A. Archer) in May 2008. He is currently a Full Professor in School of Chemical and Biomedical Engineering at Nanyang Technological University (Singapore). As a leading author, he has published over 280 journal papers in peer-reviewed good journals, such as Science Advances, Journal of the American Chemical Society, Angewandte Chemie International Edition, Nature Energy, Nature Communications, Advanced Materials, Energy & Environmental Science, and so on. His papers are highly cited with a total ISI citation of over 47,500 by May 2018 and an H-index of 129. He received several awards, including the Esso Gold Medal, the Austin Hooey Prize, and the Liu Memorial Awards. He is one winner of TR35@Singapore 2012 by MIT Technology Review. He also received the Young Scientist Award 2012 by Singapore National Academy of Sciences. He was listed as a Highly Cited Researcher in 2014, 2015, 2016 & 2017 by Thomson Reuters. Currently, he is an Associate Editor for Science Advances. |
To learn most updated information about David, please visit his personal page: http://www.ntu.edu.sg/home/xwlou/
|Nanomaterials for High-performance Lithium-ion Batteries and supercapacitors, Hollow nanostructures, photocatalysis, electrocatalysis|
- Advanced Nanomaterials by Electrospinning for Efficient Electrochemical Energy Storage and Conversion
- Advanced electrode materials derived from metal-organic frameworks for high-performance sodium-ion batteries
- Cheng Tsang Man Chair Professorship in Energy
- Design and Synthesis of Novel Nanostructured Anode Material for High-Performance Lithium-Ion Batteries (LIBs)
- High-Reliability, Long-life and Low-cost lithium Ion Batteries For Green Energy Storage Applications
- Highly efficient single-atom catalysts for electro/photocatalytic reactions
- Hollow Composite Nanofibers for Efficient Electrochemical Energy Storage and Conversion Technologies
- Hollow micro/nanostructured semiconductor materials for CO2 photoreduction
- Metal-Organic Frameworks-Derived Functional Materials for Electrochemical Energy Storage and Conversion
- Securing process technology for high capacity, efficient lithium ion battery for a frequency regulation
- Start-up grant (David Lou XW)
- Hao Bin Wu, Bao Yu Xia, Le Yu, Xin-Yao Yu, Xiong Wen David Lou. (2015). Porous molybdenum carbide nano-octahedrons synthesized via confined carburization in metal-organic frameworks for efficient hydrogen production. Nature Communications, 6, 6512.
- L. F. Shen,+ L. Yu,+ H. B. Wu, X. Y. Yu, X. G. Zhang, X. W. Lou,*. (2015). Formation of nickel cobalt sulfide ball-in-ball hollow spheres with enhanced electrochemical pseudocapacitive properties. Nature Communications, 6, 6694.
- G. Q. Zhang, B. Y. Xia, X. Wang, X. W. Lou,*. (2014). Strongly Coupled NiCo2O4-rGO as a Methanol-tolerant Electrocatalyst for Oxygen Reduction Reaction. Advanced Materials, 26, 2408 – 2412.
- C. Z. Yuan, H. B. Wu, Y. Xie,* X. W. Lou*. (2014). Mixed Transition Metal Oxides: Design, Controllable Synthesis and Energy-related Applications. Angewandte Chemie International Edition, 53(6), 1488-1504.
- G. Q. Zhang, H. B. Wu, H. E. Hoster, X. W. Lou,*. (2014). Strongly Coupled Carbon Nanofiber-Metal Oxide Coaxial Nanocables as Anode Materials for Lithium-ion Batteries. Energy & Environmental Science, 7(1), 302-305.