Research Interests
Carbon materials, electrolytes, supercapacitors Educational Background
2021.08 - DICP 2015.06 - 2020.12 Ph.D in Polymer chemistry and Physics, University of Science and Technology of China 2011.06 - 2015.06 B.S. in Department of Chemistry, Zhengzhou University Representative Publications
C.D. Ma, P. Das, X.Y. Shi, F. Zhou and Z.-S. Wu *, Current Status and Future Perspectives of Low-Temperature Electrolytes for Supercapacitors. Chemical Science, 2025, 16, 13997-14018.
C.D. Ma, P. Das, J.X. Ma, Z.Z. Yuan, F. Zhou, S.-Y. Lee * and Z.-S. Wu *, Key challenges and future perspective of ultra-low temperature electrochemical capacitors. Science Bulletin, 2025, 70, 1722-1726.
C.D. Ma, F. Zhou and Z.-S. Wu *, Revisiting Fast-Charging Performance in Supercapacitors. National Science Review, 2026, 13, nwag164.
C.D. Ma, J. Gong, S. Zhao, X.G. Liu, X.Y. Mu, Y.H. Wang*, X.C. Chen*, T. Tang*, One-Pot Green Mass Production of Hierarchically Porous Carbon via a Recyclable Salt-templating Strategy. Green Energy & Environment, 2022, 7, 818-828.
X.G Liu#, C.D. Ma#, Y.L. Wen, X.C. Chen*, X. Zhao*, T. Tang*, Highly Efficient Conversion of Waste Plastic into Thin Carbon Nanosheets for Superior Capacitive Energy Storage. Carbon, 2021,171, 819-828.
C.D. Ma, J.K. Min, J. Gong, X.G. Liu, X.Y. Mu, X.C. Chen*, T. Tang*, Transforming Polystyrene Waste into 3D Hierarchically Porous Carbon for High-performance Supercapacitors. Chemosphere, 2020, 253, 126755.
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