郑勇平（1978-），福建仙游人，南京大学凝聚态物理博士，副教授，硕士生导师，英国伯明翰大学物理与天文学院纳米材料研究中心访问****。近年来一直从事碳材料结构调控性能以及碳基材料应用研究。取得了一系列研究成果和重要进展，累计发表论文30余篇，其中SCI论文20余篇，发表在《Appl. Phys. Lett.》、《Nanotechnology》、《J. Mater. Chem. A》、《Carbon》等高影响因子国际学术刊物，累计引用500余次，Google的i10-index为13。
研究领域：
1.石墨烯材料物性调控研究；
2.碳基材料磁性研究。
3.石墨炔材料储锂和发光研究。
研究生招生专业：
1.凝聚态物理；
2.能源与材料物理；
3.能源与材料工程；
代表论文：
(1)Sun, Y.; Pan, H.; Zheng, Y.; Zhang, K.; Fu, L.; Chen, J.; Zhang, W.; Tang, N. The effect of thermal annealing on the magnetic properties of graphene oxide quantum dots. Applied Surface Science 2020,501, 144234.
(2)Xiao, W.; Kang, H.; Lin, Y.; Liang, M.; Li, J.; Huang, F.; Feng, Q.; Zheng, Y.; Huang, Z. Fluorinated graphdiyne as a significantly enhanced fluorescence material. RSC Advances 2019,9(32), 18377.
(3)Kang, H.; Chen, Y.; Xu, L.; Lin, Y.; Feng, Q.; Yao, H.; Zheng, Y. Top-down strategy synthesis of fluorinated graphdiyne for lithium ion battery. RSC Advances 2019,9(54), 31406.
(4)Chen, J.; Lin, Y.; Chen, Y.; Zheng, Y.; Liu, Y.; Jiang, L.; Feng, Q.; Li, J.; Huang, Z. Three-dimensional hierarchical nanocomposites of NiSnO3/graphene encapsulated in carbon matrix as long-life anode for lithium-ion batteries. Journal of Alloys and Compounds 2019,793, 492.
(5)Zheng, Y.; Feng, Q.; Tang, N.-j.; Du, Y.-w. Synthesis and photoluminescence of graphdiyne. New Carbon Materials 2018,33(6), 516.
(6)Lin, Z.; Liu, G.; Zheng, Y.; Lin, Y.; Huang, Z. Three-dimensional hierarchical mesoporous flower-like TiO 2@ graphdiyne with superior electrochemical performances for lithium-ion batteries. Journal of Materials Chemistry A 2018,6(45), 22655.
(7)Feng, Q.; Zheng, Y.; Li, J.; Jiang, L.; Lin, Y.; Ye, Q.; Chen, L.; Huang, Z. Observation of ferromagnetic ordering by fragmenting fluorine clusters in highly fluorinated graphene. Carbon 2018,132, 691.
(8)Feng, Q.; Xiao, W.; Liu, Y.; Zheng, Y.; Lin, Y.; Li, J.; Ye, Q.; Huang, Z. Novel Synthesis of Slightly Fluorinated Graphene Quantum Dots with Luminescent and Paramagnetic Properties through Thermal Cutting of Fluorinated Graphene. Materials 2018,11(1), 91.
(9)Zheng, Y.; Chen, Y.; Lin, L.; Sun, Y.; Liu, H.; Li, Y.; Du, Y.; Tang, N. Intrinsic magnetism of graphdiyne. Applied Physics Letters 2017,111(3), 033101.
(10)Sun, Y.; Zheng, Y.; Pan, H.; Chen, J.; Zhang, W.; Fu, L.; Zhang, K.; Tang, N.; Du, Y. Magnetism of graphene quantum dots. npj Quantum Materials 2017,2(1), 5.
(11)Sun, Y.; Zheng, Y.; Chen, J.; Zhang, W.; Tang, N.; Du, Y. Intrinsic magnetism of monolayer graphene oxide quantum dots. Applied Physics Letters 2016,108(3), 033105.
(12)Pan, H.; Sun, Y.; Zheng, Y.; Tang, N.; Du, Y. B4CN3 and B3CN4 monolayers as the promising candidates for metal-free spintronic materials. New Journal of Physics 2016,18(9), 093021.
(13)Chen, J.; Zhang, W.; Sun, Y.; Zheng, Y.; Tang, N.; Du, Y. Creation of localized spins in graphene by ring-opening of epoxy derived hydroxyl. Scientific Reports 2016,6, 26862.
(14)Yongping Zheng, X. W., Nujiang Tang, Qian Feng, Fuchi Liu, Youwei Du. Magnetic properties of double-side partially fluorinated graphene from first principles calculations. Carbon 2015,89, 300.
(15)Xu, L.; Zhang, X.; Zheng, Y. Local strain effect on the thermal transport of graphene nanoribbons: a molecular dynamics investigation. Physical Chemistry Chemical Physics 2015,17(18), 12031.
(16)Tang, T.; Tang, N.; Zheng, Y.; Wan, X.; Liu, Y.; Liu, F.; Xu, Q.; Du, Y. Robust magnetic moments on the basal plane of the graphene sheet effectively induced by OH groups. Scientific reports 2015,5.
(17)Liu, F.; Sun, Y.; Zheng, Y.; Tang, N.; Li, M.; Zhong, W.; Du, Y. Gram-scale synthesis of high-purity graphene quantum dots with multicolor photoluminescence. RSC Advances 2015,5(125), 103428.
(18)Lin, Y.; Huang, Z.-H.; Yu, X.; Shen, W.; Zheng, Y.; Kang, F. Mildly expanded graphite for anode materials of lithium ion battery synthesized with perchloric acid. Electrochimica Acta 2014,116, 170.
(19)Xu, L.; Wei, N.; Zheng, Y. Mechanical properties of highly defective graphene: from brittle rupture to ductile fracture. Nanotechnology 2013,24(50), 505703.
(20)Xu, L.; Wei, N.; Xu, X.; Fan, Z.; Zheng, Y. Defect-activated self-assembly of multilayered graphene paper: a mechanically robust architecture with high strength. Journal of Materials Chemistry A 2013,1(6), 2002.
(21)Zheng, Y.; Xu, L.; Fan, Z.; Wei, N.; Lu, Y.; Huang, Z. Mechanical properties of graphene nanobuds: a molecular dynamics study. Current Nanoscience 2012,8(1), 89.
(22)Zheng, Y.; Xu, L.; Fan, Z.; Wei, N.; Huang, Z. A molecular dynamics investigation of the mechanical properties of graphene nanochains. Journal of Materials Chemistry 2012,22(19), 9798.
(23)Yang, Y. L.; Fan, Z. Y.; Wei, N.; Zheng, Y. P. Mechanical Properties of Hydrogen Functionalized Graphyne-A Molecular Dynamics Investigation. Advanced Materials Research, 2012; p 1813.
(24)Xu, L.; Wei, N.; Zheng, Y.; Fan, Z.; Wang, H.-Q.; Zheng, J.-C. Graphene-nanotube 3D networks: intriguing thermal and mechanical properties. Journal of Materials Chemistry 2012,22(4), 1435.
(25)Wei, N.; Fan, Z.; Xu, L.-Q.; Zheng, Y.-P.; Wang, H.-Q.; Zheng, J.-C. Knitted graphene-nanoribbon sheet: a mechanically robust structure. Nanoscale 2012,4(3), 785.
(26)Cheng, Y.; Zheng, Y.; Huang, X.; Zhong, K.; Chen, Z.; Huang, Z. Magnetism and work function of Ni-Cu alloys as metal gates. Rare Metals 2012,31(2), 130.
(27)Zheng, Y.; Wei, N.; Fan, Z.; Xu, L.; Huang, Z. Mechanical properties of grafold: a demonstration of strengthened graphene. Nanotechnology 2011,22(40), 405701.
(28)Xu, L.; Zheng, Y.; Zheng, J.-C. Thermoelectric transport properties of PbTe under pressure. Physical Review B 2010,82(19), 195102.
科研项目：
1.2017J01476，石墨炔尺寸效应与功能修饰光致发光研究，福建省基金面上项目，主持
2.2013J01009，石墨烯的表面修饰：一种新型稀磁半导体的设计，福建省基金面上项目，主持
3.2016J01291，表面修饰碳量子点的高效荧光激发与细胞成像应用研究，福建省基金面上项目，参与
4.2016J01010，铁磁性氟化石墨烯的制备及磁性调控，福建省省基金面项目，参与
联系方式：zyp@fjnu.edu.cn