凌崇益,副教授/博士
2018年毕业于71886a必赢,2019年至2021年先后在71886a必赢、香港城市大学从事博士后研究工作,2021年3月加入71886a必赢。主要从事新能源材料的多尺度模拟研究,发表SCI论文40余篇,其中(共同)第一/通讯作者论文20余篇,包括J. Am. Chem. Soc.(4篇),Adv. Mater. (1篇),Nat. Commun (1篇),Nano Lett. (1篇)等。论文引用2000余次(Google Scholar),多项理论研究结果被实验证实。
地址:71886a必赢九龙湖校区田家炳楼北105室
邮箱:lingchy@seu.edu.cn
研究领域:
主要研究领域为新能源材料的多尺度模拟,具体包括光/电化学能量转换过程中微观反应机理的探索以及高性能材料的理性设计等。
工作经历:
2021/03 –至今,71886a必赢,副教授
2019/07 –2021/02,香港城市大学化学系,博士后
2019/01 –2019/06,71886a必赢,博士后
教育经历:
2015/09 –2018/12,71886a必赢,博士,物理学
2017/10 –2018/10,澳大利亚昆士兰科技大学,联合培养博士,物理化学
2012/09 –2015/06,安徽师范大学,硕士,物理化学
2008/09 –2012/06,安徽师范大学,学士,化学
科研项目:
中国博士后基金特别资助项目,2019,主持
中国博士后基金面上资助项目,2019,主持
部分学术成果:
(‡: equal contribution; *:corresponding author)
(1) C. Ling, Y. Zhang, Q. Li, X. Bai, L. Shi, J. Wang*. New Mechanism for N2 Reduction: The Essential Role of Surface Hydrogenation, J Am Chem Soc, 2019, 141, 18264.
(2) C. Ling, X. Niu, Q. Li, A. Du*, J. Wang*. Metal-Free Single Atom Catalyst for N2 Fixation Driven by Visible Light, J Am Chem Soc, 2018, 140, 14161.
(3) C. Ling, L. Shi, Y. Ouyang, X.C. Zeng*, J Wang*. Nanosheet Supported Single-Metal Atom Bifunctional Catalyst for Overall Water Splitting, Nano Lett, 2017, 17, 5133.
(4) C. Ling, L. Shi, Y. Ouyang, Q. Chen, J. Wang*. Transition metal-promoted V2CO2 (MXenes): A New and Highly Active Catalyst for Hydrogen Evolution Reaction,Adv Sci, 2016, 3, 1600180.
(5) C. Ling, Y. Ouyang, L. Shi, S. Yuan, Q. Chen, J. Wang*. Template-Grown MoS2 Nanowires Catalyze Hydrogen Evolution Reaction: Ultra-low Kinetic Barriers with High Active Site Density, ACS Catal, 2017, 7, 5097.
(6) C. Ling, L. Shi, Y. Ouyang, J. Wang*. Searching for Highly Active Catalysts for Hydrogen Evolution Reaction Based on O-terminated MXenes through A Simple Descriptor, Chem Mater, 2016, 28, 9026.
(7) C. Ling, Y. Ouyang, Q. Li, X. Bai, X. Mao, A. Du*, J. Wang*. A General Two-Step Strategy Based High-throughput Screening of Single Atom Catalysts for Nitrogen Fixation,Small Methods, 2019, 3, 1800376.
(8) Y. Ge‡, Z. Huang‡, C. Ling‡, B. Chen‡, G. Liu, M. Zhou, J. Liu, X. Zhang, H. Cheng, G. Liu, Y. Du, C. Sun, C. Tan, J. Huang, P. Yin, Z. Fan, Y. Chen, N. Yang, H. Zhang. Phase-Selective Epitaxial Growth of Heterophase Nanostructures on Unconventional 2H-Pd Nanoparticles, J Am Chem Soc, 2020, 142, 18971.
(9) Y. Chen‡, Z. Fan‡, J. Wang‡, C. Ling‡, W. Niu, Z. Huang, G. Liu, B. Chen, Z. Lai, X. Liu, B. Li, Y. Zong, L. Gu, J. Wang, X. Wang, H. Zhang. Ethylene Selectivity in Electrocatalytic CO2 Reduction on Cu Nanomaterials: A Crystal Phase-Dependent Study, J Am Chem Soc, 2020, 142, 12760.
(10) Z. Fan‡, M. Bosman‡, Z. Huang‡, Y. Chen‡, C. Ling‡, L. Wu, Y. Akimov, R. Laskowski, B. Chen, P. Ercius, J. Zhang, X. Qi, M. H. Goh, Y. Ge, Z. Zhang, W. Niu, J. Wang, H. Zheng, H. Zhang, Nat Commun, 2020, 11, 3293.
(11) J. Jiang‡, C. Ling‡, T. Xu, W. Wang, X. Niu, A. Zafar, Z. Yan, Y. You, L. Sun, J. Lu, J. Wang, Z. Ni. Defect Engineering for Modulating the Trap States in 2D Photoconductors, Adv Mater, 2018, 30, 1804332.
(12) X. Bai, Q. Li, L. Shi, X. Niu, C. Ling*, J. Wang*. Hybrid Cu0 and Cux+ as Atomic Interfaces Promote High‐Selectivity Conversion of CO2 to C2H5OH at Low Potential, Small, 2020, 16, 1901981.
(13) Z. Fu, C. Ling*, J. Wang*. A Ti3C2O2 supported single atom, trifunctional catalyst for electrochemical reactions. J Mater Chem A, 2020, 8, 7801.