马骏 特任教授
邮箱:majun0502@ustc.edu.cn
实验室主页:https://team.ustc.edu.cn/ma_group/
学习工作经历
2005.09—2009.07,武汉理工大学化学化工与生命科学学院应用化学专业,学士学位
2009.09—2012.06,北京大学应用化学系放射化学与辐射化学专业,硕士学位
2012.10—2015.10,巴黎南大学物理化学系辐射化学专业,博士学位
2015.10—2017.04,苏黎世联邦理工大学物理化学系,博士后
2017.04—2018.12,京都大学分子科学与工程系,日本学术振兴学者
2019.01—2023.08,南京航空航天大学材料科学系,教授
2023.09——至今,中国科学技术大学核科学与工程系,特任教授
研究方向
水辐射自由基化学研究
功能性水凝胶的辐射制备与应用研究
高分子基涂层电子束固化研究
近期代表性论文
[1] Yu H. Z.; Hu M. Y.; Chen C.; Hu C. J.; Li Q. H.; Hu F.; Peng S. J.*; and Ma J.*. Ambient γ-Rays-Mediated Noble-Metal Deposition on Defect-Rich Manganese Oxide for Glycerol-Assisted H2 Evolution at Industrial-Level Current Density. Angew. Chem. Int. Ed., 2023, e202314569.
[2] Jiang Z. W.; Clavaguéra C.; Hu C. J.; Denisov S. A.; Shen S. N.; Hu F.; Ma J.*; Mehran Mostafavi*. Direct Time-resolved Observation of Surface-bound Carbon Dioxide Radical Anions on Metallic Nanocatalysts. Nature Communications, 2023, 14, 7116.
[3] Hu C. J.; Jiang Z. W.; Wu Q. Y.; Cao S. Y.; Li Q. H.; Chen C; Yuan L. Y.; Wang Y. L.; Yang W. Y.; Yang J. B.; Peng J.; Zhai M. L.*; Mostafavi M.*; Ma J.*. Selective CO2 Reduction to CH3OH over Atomic Dual-metal sites Embedded in a Metal-Organic Framework with High-energy Radiation. Nature Communications, 2023, 14, 4767.
[4] Hu C. J.; Cheng L.; Zhou L.; Jiang Z. W.; Gan P. P.; Cao S. Y.; Li Q. H.; Chen C.; Wang Y. L.; Mostafavi M.; Wang S.*; Ma J.*. Radiolytic Water Splitting Sensitized by Nanoscale Metal-Organic Frameworks. J. Am. Chem. Soc., 2023, 145, 5578–5588.
[5] Wang Z. H.; Wang Y. L.*; Ge Z. Q.; Tian Y.; Ai M. X.; Cao S. Y.; Mozhen Wang; Shuao Wang*; Ma J.*. Color-phase Readout Radiochromic Photonic Crystal Dosimeter. Matter, 2022, 5, 4060-4075.
[6] Jiang Z. W.; Adjei D.; Denisov S. A.; Mostafavi M.*; Ma J.*. Transient Kinetics of Short-Chain Perfluoroalkyl Sulfonate with Radiolytic Reducing Species. Environmental Science Technology Letters, 2023, 10, 59–65.
[7] Chen C.; Zhang Y.; Li Q. H.; Wang Y. L.; Ma J.*. Guanidine-embedded poly(ionic liquid) as a versatile precursor for self-templated synthesis of nitrogen-doped carbons: Tailoring the microstructure for enhanced CO2 capture. Fuel, 2022, 329, 125357.
[8] Shi P.; Li Q.; Wang Y.; Weng H.; Ma J.*. Gas Production from Hydrothermal and Radiolytic Reactions at Silicon Carbide-water Interfaces. Journal of Nuclear Materials, 2022, 563,153624.
[9] Ma J.*; Kumar A.; Muroya Y.; Yamashi S.; Sakurai T.; Denisov S. A.; Adhikary A.; Shu S. K.*; Mostafavi M.*. Observation of Dissociative Quasi-free Electron Attachment to Nucleoside via Excited Anion Radical in Solution. Nature Communications, 2019, 10, 102.
[10] Ma J.; Wang F. R.; Denisov S. A.; Adhikary A.; Mostafavi M.*. Reactivity of Prehydrated Electrons towards Nucleobase and Nucleotide in Aqueous Solution. Science Advances, 2017, 3, 12.