Publications


2014

[51] M. Cheng, D. M. Wang, Z. R. Sun, J. Zhao, R. Yang, G. L. Wang, W. Yang, G. B. Xie, J. Zhang, P. Chen, C. L. He, D. H. Liu, L. M. Xu, D. X. Shi, E. G. Wang and G. Y. Zhang, A Route toward Digital Manipulation of Water Nanodroplets on Surfaces. ACS Nano 2014, 8 (4), 3955-3960.

[50]L. Ju, J. Velasco Jr., E. Huang, S. Kahn, C. Nosiglia, H. Tsai, W. Yang, T. Taniguchi, K. Watanabe, Y. Zhang, G. Zhang, M. Crommie, A. Zettl and F. Wang. Photo-induced Doping in Graphene/Boron Nitride Heterostructures. Nature Nanotechnology 2014, DOI:10.1038/nnano.2014.60.

[49] G. B. Xie, R. Yang, P. Chen, J. Zhang, X. Z. Tian, S. Wu, J. Zhao, M. Cheng, W. Yang, D. M. Wang, C. L.He, X. D. Bai, D. X. Shi and G. Y. Zhang, A General Route Towards Defect and Pore Engineering in Graphene. Small 2014, DOI: 10.1002/smll.201303671

[48] D. H. Liu; W. Yang; L. C. Zhang; J. Zhang; J. L. Meng; R. Yang; G. Y. Zhang and D. X. Shi, Two-step growth of graphene with separate controlling nucleation and edge growth directly on SiO2 substrates. Carbon 2014, 72, 387-392.

2013

[47] C. J. Lin; X. Y. He; J. Liao; X. X. Wang; V. Sacksteder; W. M. Yang; T. Guan; Q. M. Zhang; L. Gu; G. Y. Zhang; C. G. Zeng; X. Dai; K. H. Wu and Y. Q. Li, Parallel field magnetoresistance in topological insulator thin films. Physical Review B 2013, 88 (4), 041307(R).

[46] C. L. He; J. F. Li; X. Wu; P. Chen; J. Zhao; K. B. Yin; M. Cheng; W. Yang; G. B. Xie; D. M. Wang; D. H. Liu; R. Yang; D. X. Shi; Z. Y. Li; L. T. Sun and G. Y. Zhang, Tunable Electroluminescence in Planar Graphene/SiO2 Memristors. Advanced Materials 2013, 25 (39), 5593-5598.

[45] W. Yang; G. R. Chen; Z. W. Shi; C. C. Liu; L. C. Zhang; G. B. Xie; M. Cheng; D. M. Wang; R. Yang; D. X. Shi; K. Watanabe; T. Taniguchi; Y. G. Yao; Y. B. Zhang and G. Y. Zhang, Epitaxial growth of single-domain graphene on hexagonal boron nitride. Nature Materials 2013, 12 (9), 792-797.

[44] R. Yang; C. X. Zhu; J. L. Meng; Z. L. Huo; M. Cheng; D. H. Liu; W. Yang; D. X. Shi; M. Liu and G. Y. Zhang, Isolated nanographene crystals for nano-floating gate in charge trapping memory. Scientific Reports 2013, 3, 2126.

[43] J. Zhao; G. Y. Zhang and D. X. Shi, Review of graphene-based strain sensors. Chinese Physics B 2013, 22 (5), 057701.

[42] P. Chen and G. Y. Zhang, Carbon-based spintronics. Science China-Physics Mechanics & Astronomy 2013, 56 (1), 207-221.

2012

[41] L. C. Zhang; M. Ni; D. H. Liu; D. X. Shi and G. Y. Zhang, Competitive Growth and Etching of Epitaxial Graphene. Journal of Physical Chemistry C 2012, 116 (51), 26929-26931.

[40] G. B. Xie; Z. W. Shi; R. Yang; D. H. Liu; W. Yang; M. Cheng; D. M. Wang; D. X. Shi and G. Y. Zhang, Graphene Edge Lithography. Nano Letters 2012, 12 (9), 4642-4646.

[39] J. Zhao; C. L. He; R. Yang; Z. W. Shi; M. Cheng; W. Yang; G. B. Xie; D. M. Wang; D. X. Shi and G. Y. Zhang, Ultra-sensitive strain sensors based on piezoresistive nanographene films. Applied Physics Letters 2012, 101 (6), 063112.

[38] D. H. Liu; Z. W. Shi; L. C. Zhang; C. L. He; J. Zhang; M. Cheng; R. Yang; X. Z. Tian; X. D. Bai; D. X. Shi and G. Y. Zhang, Reducing the contact resistance of SiNW devices by employing a heavily doped carrier injection layer. Nanotechnology 2012, 23 (30), 305701.

[37] C. L. He; Z. W. Shi; L. C. Zhang; W. Yang; R. Yang; D. X. Shi and G. Y. Zhang, Multilevel Resistive Switching in Planar Graphene/SiO2 Nanogap Structures. Acs Nano 2012, 6 (5), 4214-4221.

[36] L. C. Zhang; Z. W. Shi; D. H. Liu; R. Yang; D. X. Shi and G. Y. Zhang, Vapour-phase graphene epitaxy at low temperatures. Nano Research 2012, 5 (4), 258-264.

[35] M. Cheng; R. Yang; L. C. Zhang; Z. W. Shi; W. Yang; D. M. Wang; G. B. Xie; D. X. Shi and G. Y. Zhang, Restoration of graphene from graphene oxide by defect repair. Carbon 2012, 50 (7), 2581-2587.

[34] W. Yang; C. L. He; L. C. Zhang; Y. Wang; Z. W. Shi; M. Cheng; G. B. Xie; D. M. Wang; R. Yang; D. X. Shi and G. Y. Zhang, Growth, Characterization, and Properties of Nanographene. Small 2012, 8 (9), 1429-1435.

[33]S. Wu; R. Yang; D. X. Shi and G. Y. Zhang, Identification of structural defects in graphitic materials by gas-phase anisotropic etching. Nanoscale 2012, 4 (6), 2005-2009.

[32] Z. W. Shi; H. L. Lu; L. C. Zhang; R. Yang; Y. Wang; D. H. Liu; H. M. Guo; D. X. Shi; H. J. Gao; E. G. Wang and G. Y. Zhang, Studies of graphene-based nanoelectromechanical switches. Nano Research 2012, 5 (2), 82-87.

2011

[31] C. X. Zhu; Z. G. Xu; Z. L. Huo; R. Yang; Z. W. Zheng; Y. X. Cui; J. Liu; Y. M. Wang; D. X. Shi; G. Y. Zhang; F. H. Li and M. Liu, Investigation on interface related charge trap and loss characteristics of high-k based trapping structures by electrostatic force microscopy. Applied Physics Letters 2011, 99 (22), 223504.

[30] R. Yang; Z. W. Shi; L. C. Zhang; D. X. Shi and G. Y. Zhang, Observation of Raman G-Peak Split for Graphene Nanoribbons with Hydrogen-Terminated Zigzag Edges. Nano Letters 2011, 11 (10), 4083-4088.

[29] Z. W. Shi; R. Yang; L. C. Zhang; Y. Wang; D. H. Liu; D. X. Shi; E. G. Wang and G. Y. Zhang, Patterning Graphene with Zigzag Edges by Self-Aligned Anisotropic Etching. Advanced Materials 2011, 23 (27), 3061-3065.

[28] Y. Wang; R. Yang; Z. W. Shi; L. C. Zhang; D. X. Shi; E. Wang and G. Y. Zhang, Super-Elastic Graphene Ripples for Flexible Strain Sensors. Acs Nano 2011, 5 (5), 3645-3650.

[27] L. C. Zhang; Z. W. Shi; Y. Wang; R. Yang; D. X. Shi and G. Y. Zhang, Catalyst-free growth of nanographene films on various substrates. Nano Research 2011, 4 (3), 315-321.

2010

[26] R. Yang; L. C. Zhang; Y. Wang; Z. W. Shi; D. X. Shi; H. J. Gao; E. G. Wang and G. Y. Zhang, An Anisotropic Etching Effect in the Graphene Basal Plane. Advanced Materials 2010, 22 (36), 4014-4019.

[25] R. Yang; Q. S. Huang; X. L. Chen; G. Y. Zhang and H. J. Gao, Substrate doping effects on Raman spectrum of epitaxial graphene on SiC. Journal of Applied Physics 2010, 107 (3), 034305.

2009

[24] S. Ma; V. V. S. S. Srikanth; D. Maik; G. Y. Zhang; T. Staedler and X. Jiang, From carbon nanobells to nickel nanotubes. Applied Physics Letters 2009, 94 (1), 013109.

[23] X. M. Sun; S. M. Tabakman; W. S. Seo; L. Zhang; G. Y. Zhang; S. Sherlock; L. Bai and H. J. Dai, Separation of Nanoparticles in a Density Gradient: FeCo@C and Gold Nanocrystals. Angewandte Chemie-International Edition 2009, 48 (5), 939-942.

2008


[22] Z. Chen; S. M. Tabakman; A. P. Goodwin; M. G. Kattah; D. Daranciang; X. R. Wang; G. Y. Zhang; X. L. Li; Z. Liu; P. J. Utz; K. L. Jiang; S. S. Fan and H. J. Dai, Protein microarrays with carbon nanotubes as multicolor Raman labels. Nature biotechnology 2008, 26 (11), 1285-1292.

[21] X. L. Li; G. Y. Zhang; X. D. Bai; X. M. Sun; X. R. Wang; E. Wang and H. J. Dai, Highly conducting graphene sheets and Langmuir-Blodgett films. Nature Nanotechnology 2008, 3 (9), 538-542.
[20] M. A. Panzer; G. Zhang; D. Mann; X. Hu; E. Pop; H. Dai and K. E. Goodson, Thermal properties of metal-coated vertically aligned single-wall nanotube arrays. Journal of Heat Transfer-Transactions of the Asme 2008, 130 (5), 052401.

Before 2007

[19] P. H. Tan; J. Zhang; X. C. Wang; G. Y. Zhang and E. G. Wang, Raman scattering from an individual tubular graphite cone. Carbon 2007, 45 (5), 1116-1119.

[18] G. Y. Zhang; P. F. Qi; X. R. Wang; Y. R. Lu; X. L. Li; R. Tu; S. Bangsaruntip; D. Mann; L. Zhang and H. J. Dai, Selective etching of metallic carbon nanotubes by gas-phase reaction. Science 2006, 314 (5801), 974-977.

[17] G. Y. Zhang; X. R. Wang; X. L. Li; Y. R. Lu; A. Javey and H. J. Dai, Carbon nanotubes: From growth, placement and assembly control to 60mV/decade and sub-60 mV/decade tunnel transistors. 2006 International Electron Devices Meeting, Vols 1 and 2 2006, 160-163, Invited.

[16] G. Y. Zhang; P. F. Qi; X. R. Wang; Y. R. Lu; D. Mann; X. L. Li and H. J. Dai, Hydrogenation and hydrocarbonation and etching of single-walled carbon nanotubes. Journal of the American Chemical Society 2006, 128 (18), 6026-6027.

[15] M. Panzer; G. Zhang; D. Mann; X. Hu; E. Pop; H. Dai and K. E. Goodson, Thermal properties of metal-coated vertically-aligned single wall nanotube films. 2006 Proceedings 10th Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronics Systems, Vols 1 and 2 2006, 1306-1313, Invited.

[14] G. Y. Zhang; D. Mann; L. Zhang; A. Javey; Y. M. Li; E. Yenilmez; Q. Wang; J. P. McVittie; Y. Nishi; J. Gibbons and H. J. Dai, Ultra-high-yield growth of vertical single-walled carbon nanotubes: Hidden roles of hydrogen and oxygen. Proceedings of the National Academy of Sciences of the United States of America 2005, 102 (45), 16141-16145.

[13] G. Y. Zhang; X. D. Bai; E. G. Wang; Y. Guo and W. L. Guo, Monochiral tubular graphite cones formed by radial layer-by-layer growth. Physical Review B 2005, 71 (11), 113411.

[12] G. Y. Zhang; X. Jiang and E. G. Wang, Self-assembly of carbon nanohelices: Characteristics and field electron emission properties. Applied Physics Letters 2004, 84 (14), 2646-2648.

[11] 张广宇; 王恩哥, "一种新的纳米结构—管状石墨锥". 物理 2003, 32 (9), 567-571.

[10] 葛颂; 冯孙齐; 俞大鹏; 张广宇; 刘双, "取向碳纳米管膜的大面积制备及其场发射性能的研究". 北京大学学报 2003, 39 (3), 341-346.

[9] G. Y. Zhang; X. Jiang and E. G. Wang, Tubular graphite cones. Science 2003, 300 (5618), 472-474.

[8] G. Y. Zhang and E. G. Wang, Cu-filled carbon nanotubes by simultaneous plasma-assisted copper incorporation. Applied Physics Letters 2003, 82 (12), 1926-1928.

[7] D. Y. Zhong; Z. G. Guo; J. Ma; M. M. Zhou; Y. K. Pu; S. Liu; G. Y. Zhang and E. G. Wang, Optical emission spectroscopy study of the influence of nitrogen on carbon nanotube growth. Carbon 2003, 41 (9), 1827-1831.

[6] G. Y. Zhang; X. C. Ma; D. Y. Zhong and E. G. Wang, Polymerized carbon nitride nanobells. Journal of Applied Physics 2002, 91 (11), 9324-9332.

[5] D. Y. Zhong; G. Y. Zhang; S. Liu; T. Sakurai and E. G. Wang, Universal field-emission model for carbon nanotubes on a metal tip. Applied Physics Letters 2002, 80 (3), 506-508.

[4] Y. K. Pu; Z. G. Guo; Z. D. Kang; J. Ma; Z. C. Guan; G. Y. Zhang and E. G. Wang, Comparative characterization of high-density plasma reactors using emission spectroscopy from VUV to NIR. Pure and Applied Chemistry 2002, 74 (3), 459-464.

[3] D. Y. Zhong; G. Y. Zhang; S. Liu; E. G. Wang; Q. Wang; H. Li and X. J. Huang, Lithium storage in polymerized carbon nitride nanobells. Applied Physics Letters 2001, 79 (21), 3500-3502.

[2] X. D. Bai; D. Y. Zhong; G. Y. Zhang; X. C. Ma; S. Liu; E. G. Wang; Y. Chen and D. T. Shaw, Hydrogen storage in carbon nitride nanobells. Applied Physics Letters 2001, 79 (10), 1552-1554.

[1] D. Y. Zhong; S. Liu; G. Y. Zhang and E. G. Wang, Large-scale well aligned carbon nitride nanotube films: Low temperature growth and electron field emission. Journal of Applied Physics 2001, 89 (11), 5939-5943.

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