Pan, Zhengwei - The University of Georgia - School of Chemical, Materials, and Biomedical Engineering

个人简介

Dr. Pan is an NSF CAREER Award recipient. He and his colleagues fabricated what is thought to be the world's first LED that emits warm white light using a single light emitting material, or phosphor, with a single emitting center for illumination. Ph.D. in Material Science & Engineering, Northwestern Polytechnic University, China, 1997 M.S. in Material Science & Engineering, Shandong University of Technology, China, 1993 B.S. in Material Science & Engineering, Shandong University of Technology, China, 1990

研究领域

Development of novel near-infrared persistent phosphors for defense and security, solar energy utilization, bio-imaging and optical information storage. Fabrication of new classes of rare-earth activated multicomponent nanowires and nanoparticles for advanced nanophotonics and warm-white LEDs. Homo-epitaxial growth of graphene and fabrication of complex 3D graphene networks. Synthesis of nanowires by developing new synthetic approaches and new catalysts. Growth of carbon nanotubes and carbon nanotube-reinforced ceramic matrix composites for light-weight, high-strength and high-temperature applications.

近期论文

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K.Y. Li, G. Eres, J. Howe, Y.J. Chuang, X.F. Li, Z.J. Gu, L.T. Zhang, S.S. Xie & Z.W. Pan, “Self-assembly of graphene on carbon nanotube surfaces”, Scientific Reports 3, 2353 (2013), DOI: 10.1038/srep02353 (A Nature Publishing Group journal). Z.J. Gu, F. Liu, X.F. Li & Z.W. Pan, “Luminescent Zn2GeO4 nanorod arrays and nanowires”, Phys. Chem. Chem. Phys. 15, 7488-7493 (2013) (Cover Art). F. Liu, W.Z. Yan, Y.J. Chuang, Z.P. Zhen, J. Xie & Z.W. Pan, “Photostimulated near-infrared persistent luminescence as a new optical read-out from Cr3+-doped LiGa5O8”, Scientific Reports 3: 1554 (2013), DOI: 10.1038/srep01554 (A Nature Publishing Group journal). Z.J. Gu, F. Liu, X.F. Li & Z.W. Pan, “Luminescent GeO2-Zn2GeO4 hybrid one dimensional nanostructures”, Cryst. Eng. Comm. 15, 2904-2908 (2013). Y.F. Yue, Z.A. Qiao, X.F. Li, A.J. Binder, E. Formo, Z.W. Pan, C.C. Tian, Z.H. Bi & S. Dai, “Nanostructured zeolitic imidazolate frameworks derived from nanosized zinc oxide precursors”, Crystal Growth & Design 13, 1002-1005 (2013) X.F. Li, J.D. Budai, F. Liu, J.Y. Howe, J.H. Zhang, X.J. Wang, Z.J. Gu, C.J. Sun, R.S. Meltzer & Z.W. Pan, “New yellow Ba0.93Eu0.07Al2O4 phosphor for warm-white light-emitting diodes through single-emitting-center-conversion”, Light: Science & Application, 2, e50 (2013). DOI: 10.1038/lsa.2013.6 (A Nature Publishing Group journal). F. Liu, J. D. Budai, X.F. Li, J.Z. Tischler, J. Y. Howe, C.J. Sun, R.S. Meltzer & Z.W. Pan, “New Ternary Europium Aluminate Luminescent Nanoribbons for Advanced Photonics”, Adv. Func. Mater.23, 1998-2006 (2013) (Cover Art). W.Y. Yin, L.J. Zhou, Z.J. Gu, G. Tian, S. Jin, L. Yan, X.X. Liu, G.M. Xing, W.L. Ren, F. Liu, Z.W. Pan & Y.L. Zhao, “Lanthanide-doped GdVO4 nanophosphors with tunable emissions and their applications for biomedical imaging”, J. Mater. Chem. 22, 6974-6981 (2012). Y.C. Yang, Z.H. Xu, Z.W. Pan & X.D. Li, “Hydrogen passivation induced dispersion of multi-walled carbon nanotubes”, Adv. Mater. 24, 881-885 (2012) (Cover Art). Z.W. Pan, Y.Y. Lu & F. Liu, “Sunlight-activated near-infrared long-persistent luminescence from Cr3+-doped zinc gallogermanates”, Nature Materials, 11, 58-63 (2012) (Cover Art). Y.Y. Lu, F. Liu, Z.J. Gu & Z.W. Pan, “Long-persistent near-infrared persistent luminescence from b-Ga2O3:Cr3+ nanowires”, J. Lumin. 131, 2784-2787 (2011). Z.J. Gu, Y.C. Yang, K.Y. Li, X.Y. Tao, G. Eres, J.Y. Howe, L.T. Zhang, X.D. Li & Z.W. Pan, “Aligned carbon nanotube-reinforced silicon carbide composites produced by chemical vapor infiltration”, Carbon 49, 2475-2482 (2011). W.Z. Yan, F. Liu, Y.Y. Lu, X.J. Wang, M. Yin & Z.W. Pan, “Near infrared long-persistent phosphorescence in La3Ga5GeO14:Cr3+ phosphor”, Optics Express 18, 20215-20221 (2010). Z.J. Gu, F. Liu, X.F. Liu, J. Howe, J. Xu & Z.W. Pan, “Red, green, blue (RGB) luminescence from ZnGa2O4 nanowire arrays”, J. Phys. Chem. Lett. 1, 354-357 (2010). Z.W. Pan, J. Tao, Y.M. Zhu, J.F. Huang & M.P. Paranthaman, “Spontaneous growth of ZnCO3 nanowires on ZnO nanostructures in normal ambient environment: unstable ZnO nanostructures”, Chem. Mater. 22, 149-154(2010). K.A. Meyer, K.L. Shuford, Z.J. Gu, Z.W. Pan & R.W. Shaw, “Simultaneous apertureless near-field scanning optical second harmonic generation and atomic force microscopy imaging of zinc oxide nanowires”, Appl. Spec. 64, 1-7 (2010) (Cover Art). N.Y. Yu, F. Liu, X.F. Li & Z.W. Pan, “Near infrared long-persistent phosphorescence in SrAl2O4:Eu2+,Dy3+,Er3+ phosphors based on persistent energy transfer”, Appl. Phys. Lett. 95, 231110 (2009). Z.J. Gu, F. Liu, J.Y. Howe, M.P. Paranthaman & Z.W. Pan, “Germanium-Catalyzed Hierarchical Al2O3 and SiO2 Nanowire Bunch Arrays”, Nanoscale 1, 347-354 (2009). Y.J. Chuang, X.C. Zhou, Z.W. Pan & C. Turchi, “A convenient method for synthesis of glyconanoparticles for colorimetric measuring carbohydrate-protein interactions”, Biochem. Biophys. Res. Commu. 389, 22-27 (2009). Z.J. Gu, F. Liu, J. Y. Howe, M. P. Paranthaman & Z.W. Pan, “Three-Dimensional Germanium Oxide Nanowire Networks”, Crystal Growth & Design 9, 35-39 (2009). Z.J. Gu, M.P. Paranthaman, J. Xu & Z.W. Pan, “Aligned Zinc Oxide Nanorod Arrays Grown Directly on Zinc Foils and Zinc Microspheres by a Low-Temperature Oxidization Method”, ACS Nano 2, 273-278 (2009). Z.W. Pan, J.D. Budai, Z.R. Dai, W.J. Liu, M P. Paranthaman & S. Dai,” Zinc Oxide Microtowers by Vapor Phase Homoepitaxial Regrowth”, Adv. Mater. 21, 890-896 (2009). (Cover Art) Z.J. Gu, M. P. Paranthaman & Z.W. Pan, “Vapor-Phase Synthesis of Gallium Phosphide Nanowires”, Growth & Design 9, 525-527 (2009). J.D. Budai, W. Liu, J.Z. Tischler, Z.W. Pan, D.P. Norton, B.C. Larson, W. Yang & G.E. Ice, “Polychromatic X-ray micro- and nanodiffraction for spatially-resolved structural studies,” Thin Solid Films 516, 8013-8021 (2008). J. Xu, R. Ott, A.S. Sabau, Z.W. Pan, F.X. Xiu, J.L. Liu, J.M. Erie & D.P. Norton, “Generation of nitrogen acceptors in ZnO using pulse thermal processing”, Appl. Phys. Lett. 92, 151112 (2008).