张广宇 - 中国科学院大学

个人简介

学历 1995-1999 山东大学物理系，本科 1999-2004 中科院物理研究所，硕博联读 2002-2003 德国弗朗合费研究所，交换学生 2004-2008 美国斯坦福大学化学系，博士后学位 1999 山东大学物理系，学士 2004 中科院物理研究所，博士出国学习工作 2002-2003 德国弗朗合费研究所 2004-2008 美国斯坦福大学化学系工作简历 2008.5-2009.2 中科院物理研究所纳米实验室N04组，****研究员 2009.3-- 中科院物理研究所纳米实验室N07组，课题组长奖励信息 2004 中科院院长奖学金特别奖 2004 54届德国林岛诺贝尔奖获得者报告会中国学生代表 2005 中科院50篇优秀博士毕业论文奖 2006 全国百篇优秀博士毕业论文奖专利成果欧洲专利一项（已捐出）美国专利两项参与会议 [1] 天津第一届石墨烯研讨会，南开大学，2008 [2] 中国物理学会秋季学术会议，山东大学，2008 [3]中德纳米会，北京-昆明，2008 [4] G. Y. Zhang, P. F. Qi, X. R. Wang, Y. R. Lu, X. L. Li, R. Tu, S. Bangsarantip, D. Mann, L. Zhang & H. Dai, Selective etching of metallic carbon nanotubes by gas-phase reaction, 4th Annual Foundations of Nanoscience Conference (07), Salt Lake City, April 18-21, 2007 (Keynote talk). [5] G. Y. Zhang, P. F. Qi, X. R. Wang, Y. R. Lu, X. L. Li, R. Tu, S. Bangsarantip, D. Mann, L. Zhang & H. Dai, High current all-semiconductor carbon nanotube electronics, APS March Meeting, Denver, March 5-9, 2007 [6] G. Y. Zhang & X. Jiang, PECVD fabrication of carbon cones and helices on a metal tip, 8th Applied Diamond Conference/NanoCarbon 2005 Joint Conference, Argonne National Laboratory, Chicago, May 15-19, 2005 (invited talk). [7] G. Y. Zhang, X. Jiang & E. G. Wang, A new nanostructure: Tubular Graphite Cones, 1st Academic Forum for Chinese Doctoral Candidates, Beijing, China, Oct. 17-19, 2003. [8] G. Y. Zhang, X. Jiang & E. G. Wang, A new nanostructure: Tubular Graphite Cones, Chinese Physics Society (CPS) 2003 Fall Meeting, Hefei, China, Sep. 18-21, 2003. [9] G. Y. Zhang & E. G. Wang, A new method to filling the carbon nanotubes with copper, German-Chinese Symposium on Self-Organization of Functional Nanomaterials, Münster, Germany, May 27-29, 2002. [10] G. Y. Zhang, D. Y. Zhong, S. Liu & E. G. Wang , Polymerized carbon nitride nanobells and heterojunctions, The International Conference on Surface and Interface Science and Technology (SISE'2001), Shenzhen, China, July 31-Aug. 2, 2001. 项目协作单位中科院微电子所中科院化学所美国斯坦福大学化学系

研究领域

纳米材料物理与器件主要研究内容包括制备一维或二维纳米材料（如碳纳米管、石墨烯、纳米线等），利用微纳加工技术制作纳米尺度电子学/光学器件，并研究器件的基本的物理特性。

近期论文

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[1] S. Ma, Vadali. V. S. S. Srikanth, D. Maik, G. Y. Zhang, T. Staedler, and X. Jiang, "From carbon nanobells to nickel nanotubes", Appl. Phys. Lett. 94，013109 (2009) [2] Xiaoming Sun, Scott M Tabakman, Won-Seok Seo, Li Zhang, Guangyu Zhang, Sarah Sherlock, Lu Bai, Hongjie Dai. "Separation of Nanoparticles in a Density Gradient: FeCo@C and Gold Nanocrystals" Angew. Chem. Int. Ed. 1433-7851, 2009. [3] Z. Chen, S. M. Tabakman, A. P. Goodwin, M. G. Kattah, D. Daranciang, X. Wang, G.Y. Zhang, X.L. Li, Z. Liu, P. J. Utz, K. Jiang, S. Fan & H. Dai. “Protein microarrays with carbon nanotubes as multicolor Raman labels” Nature Biotechnology 26, 1285 （2008） [4] X. L. Li, G. Y. Zhang, X.D. Bai, X. M. Sun, X. R. Wang, E. G. Wang and H. Dai, Highly Conducting Graphene Sheets and Langmuir-Blodgett Films, Nature Nanotechnology 3, 538 (2008) [5] P. H. Tan, J. Zhang, X. C. Wang, G. Y. Zhang, E. G. Wang, Raman Scattering from an Individual Tubular Graphite Cone, Carbon 45, 1116 (2007) [6] M. Panzer, G. Y. Zhang, D. Mann, et al. Thermal properties of the aligned SWNT arrays, Journal of Heat Transfer 130, 052401 (2008) [7] G. Y. Zhang, X. R. Wang, X. L. Li, Y. R. Lu, A. Javey & H. Dai, Carbon Nanotubes: From Growth, Placement and Assembly Control to 60mV/decade and Sub-60 mV/decade FET Devices, IEDM (2006). [8] G. Y. Zhang, P. F. Qi, X. R. Wang, Y. R. Lu, X. L. Li, R. Tu, S. Bangsaruntip, D. Mann, L. Zhang & H. Dai, Selectively Etching of Metallic Carbon Nanotubes by Gas-phase Reaction, Science 314, 974 (2006). [9] G. Y. Zhang, P. F. Qi, X. R. Wang, Y. R. Lu, D. Mann, X. L. Li & H. Dai, Hydrogenation, Hydrocarbonation and etching of single walled carbon nanotubes, JACS 128, 6026 (2006). [10] G. Y. Zhang, D. Mann, L. Zhang, A. Javey, Y. M. Li, E. Yenilmez, Q. Wang, J. P. McVittie, Y. Nishi, J. Gibbons & H. Dai, Ultra-high-yield growth of vertical single-walled carbon nanotubes: Hidden roles of hydrogen and oxygen, PNAS 102, 16141 (2005). [11] G. Y. Zhang, X. D. Bai, E. G. Wang, Y. Guo & W. L. Guo, Monochiral tubular graphite cones formed by radial layer-by-layer growth, Phys. Rev. B 71, 113411 (2005). [12] G. Y. Zhang, X. Jiang & E. G. Wang, Self-assembly of carbon nanohelices: Characteristics and FEE properties, Appl. Phys. Lett. 86, 2646 (2004). [13] 张广宇，王恩哥，一种新的纳米结构—管状石墨锥，物理 32，567 （2003） [14] G. Y. Zhang, X. Jiang & E. G. Wang, Tubular Graphite cones, Science 300, 472 (2003). [15] G. Y. Zhang & E. G. Wang, Cu-encapsulated carbon nanotubes formed by simultaneous plasma-assisted copper incorporation, Appl. Phys. Lett. 82, 1926 (2003). [16] D. Y. Zhong, Z. G. Guo, J. Ma, M. M. Zhou, Y. K. Pu, S. Liu, G. Y. Zhang & E.G. Wang, Optical emission spectroscopy study of nitrogen influence on carbon nanotube growth, Carbon 41, 1827 (2003). [17] G. Y. Zhang, X. C. Ma, D. Y. Zhong & E. G. Wang, Polymerized carbon nitride nanobells, J. Appl. Phys. 91, 9324 (2002). [18] D. Y. Zhong, G.Y. Zhang, S. Liu, T. Sakurai & E. G. Wang, Universal Field Emission Model for Carbon Nanotubes on a Metal Tip, Appl. Phys. Lett. 80, 506 (2002). [19] Y.K. Pu, Z.G. Guo, Z. D. Kang, J. Ma, Z.C. Guan, G.Y. Zhang & E.G. Wang, Comparative Characterization of High-density Plasma Reactors using Emission Spectroscopy from VUV to NIR, Pure and Applied Chemistry 74, 459 (2002). [20] D. Y. Zhong, G. Y. Zhang, E. G. Wang, Q. Wang, H. Li & X. J. Huang, Lithium Storage in Polymerized Carbon Nitride Nanobells, Appl. Phys. Lett. 79, 3500 (2001). [21] X. D. Bai, D. Y. Zhong, G. Y. Zhang, X. C. Ma, Shuang Liu, E. G. Wang, Yan Chen & David T. Shaw, Hydrogen storage in carbon nitride nanobells, Appl. Phys. Lett. 79, 1552 (2001). [22] D. Y. Zhong, S. Liu, G. Y. Zhang & E. G. Wang, Large-scale well aligned carbon nitride nanotube films: low temperature growth and electron field emission, J. Appl. Phys. 89, 5939 (2001).