个人简介
教育背景 2000-2006 北京大学, 物理电子学专业, 博士学位 1996-2000 北京大学, 信息工程专业, 学士学位 工作履历 2009- 至今 电子科技大学, 微电子和固体电子学院, 教师 2007-2009 北京大学, 物理学院, 博士后
研究领域
研究内容1 石墨烯薄膜制备及其电学和光电器件研究 研究内容2 石墨烯粉末制备及其能源器件器件研究 研究内容3 二维过渡金属化合物薄膜制备及其电学和光电器件研究 研究内容4 二维过渡金属化合物粉末制备及其能源器件研究
近期论文
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[23]J. B. Liu, P. J. Li*, Y. F. Chen*, et al.Observation of tunable electrical bandgap in large-area twisted bilayer graphene synthesized by chemical vapor deposition. Scientific Reports, 2015 (in press) [22]Z. G. Wang, P. J. Li*, Y. F. Chen*, et al. Synthesis, characterization and electrical properties of silicon-doped graphene films. Journal of Materials Chemistry C,2015, 3: 6301 [21]J. R. He, Y. F. Chen*, P. J. Li*, et al. Three-dimensional CNT/graphene–sulfur hybrid sponges with high sulfur loading as superior-capacity cathodes for lithium–sulfur batteries.Journal of Materials Chemistry A, 2015, 3, 18605 [20]J. R. He, Y. F. Chen*, P. J. Li*, et al. Self-assembled CoS2 nanoparticles wrapped by CoS2-quantum-dots-anchored graphene nanosheets as superior-capability anode for lithium-ion batteries. Electrochimica Acta, 2015,182: 424 [19]W. L., Y. F. Chen*, P. J. Li*, et al. Enhanced Performance of Lithium Sulfur Battery with a Reduced Graphene Oxide Coating Separator. Journal of The Electrochemical Society, 2015 162(8): A1624 [18]J. R. He, Y. F. Chen*, P. J. Li*, et al. Facile fabrication of RGO wrapped LiMn2O4 nanorods as a cathode with enhanced specific capacity. RSC Advances, 2015, 5: 80063 [17]F. F, Y. F. Chen*, P. J. Li*, et al.Three-dimensional CoS2/RGO hierarchical architecture as superior-capability anode for lithium ion batteries. RSC Advances, 2015, 5: 71790 [16]F. Q., P. J. Li*, Y. F. Chen*, et al. Effect of hydrogen on the growth of MoS2 thin layers by thermal decomposition method. Vacuum, 2015, 119: 204 [15]Z. G. Wang, P. J. Li*, Y. F. Chen*, et al. Synthesis of nitrogen-doped graphene using sole solidsource bychemical vapour deposition. Journal of Materials Chemistry C,2014, 2: 7396 [14]Z. G. Wang, P. J. Li*, Y. F. Chen*, et al. Pure thiophene-sulfur doped reduced graphene oxide: synthesis, structure, and electrical properties. Nanoscale, 2014, 6(13): 7281 [13]Z. G. Wang, P. J. Li*, Y. F. Chen*, et al. Phosphorus-doped reduced graphene oxide as an electrocatalyst counter electrode in dye-sensitized solar cells. Journal of Power Sources, 2014, 263: 246 [12] Z. G. Wang, P. J. Li*, Y. F. Chen*, et al. The green synthesis of reduced graphene oxide by the ethanol-thermal reaction and its electrical properties. Materials Letters, 2014, 116(1): 416 [11]Z. G. Wang, P. J. Li*, Y. F. Chen*, et al. Air-stable n-type doping of graphene from overlying Si3N4 film. Applied Surface Science, 2014, 307: 712 [10] Z. G. Wang, Y. F. Chen*, P. J. Li*, et al. Performance enhancement in CVD graphene field-effect transistors by high-k dielectric screening. Mater. Express, 2014, 4(1): 85 [9] J. B. Liu, P. J. Li*, Y. F. Chen*, et al. Large-area synthesis of high-quality and uniform monolayer graphene without unexpected bilayer regions. Journal of Alloys and Compounds, 2014, 615: 415 [8]J. R. He, Y. F. Chen*, P. J. Li*, et al. Synthesis and electrochemical properties of graphene-modified LiCo1/3Ni1/3Mn1/3O2 cathodes for lithium ion batteries. RSC Advances, 2014, 4: 2568 [7] P. J. Li* ,K. Chen , Y. F. Chen*, et al. Low platinum loading Pt/graphene composite catalyst with high electrocatalytic activity for dye-sensitized solar cells.Chinese Physics B, 2012, 21(11): 118101 [6] Z. G. Wang, Y. F. Chen, P. J. Li*, et al. Effects of methane flux on structural and transport properties of CVD-grown graphene films. Vacuum, 2012, 86(7): 895 [5] X. Hao, Y. F. Chen*, P. J. Li*, et al. Temperature dependence of the thickness and morphology of epitaxial graphene grown on SiC(0001)wafers, Chinese Physics B, 2012, 21(4): 046801