武汉大学物理科学与技术学院博士生导师简介：陈志权

　　[5]T. Li, H.F. He, T. Zhang, B. Zhao, Z.Q. Chen*, H.Y. Dai, R.Z. Xue, Z.P. Chen, Effect of synthesizing temperatures on the microstructure and electrical property of CaCu3Ti4O12ceramics prepared by sol-gel process. Journal of Alloys and Compounds, 684, 315-321 (2016)

　　[6]X. F. Li, B. Zhao, T. Zhang, H. F. He, Q. Zhang, D. W. Yang, Z. Q. Chen*, X. F. Tang, Order-disorder transition in clathrate Ba6Ge25studied by positronannihilation. Applied Surface Science, 342, 42-46 (2015)

　　[7]N. Qi, Z. Q. Chen*, A. Uedono, Molecular motion and relaxation below glass transition temperature in poly (methyl methacrylate) studied by positron annihilation. Radiation Physics & Chemistry, 108, 81-86 (2015)

　　[8]T. Zhang, K. Zhou, X. F. Li, Z. Q. Chen*, X. L. Su and X. F. Tang, Structural transition of partially Ba-filled thermoelectric CoSb3 investigated by positron annihilation spectroscopy. Journal of Applied Physics 117, 055103 (2015)

　　[9]X. F. Li, Z. Q. Chen*, C. Liu, H. J. Zhang and A. Kawasuso, Enhanced damage buildup in C+-implanted GaN film studied by a monoenergetic positron beam. Journal of Applied Physics 117, 085706 (2015)

　　[10]H. Q. Li, B. Zhao, T. Zhang, X. F. Li, H. F. He, Z. Q. Chen*, X. L. Su and X. F. Tang, Influence of O-Co-O layer thickness on the thermal conductivity of NaxCo2O4 studied by positron annihilation. Journal of Applied Physics 118, 035102 (2015)

　　[11]Q. K. Zhang, B. Zou, X. F. Li, Z.Y. Chen, Z. Q. Chen*, H. Q. Liu, D. Q. Yi, Effect of thermal treatment condition on the Ag precipitates in Al–Ag alloy studied by positron annihilation. Nuclear Instruments and Methods in Physics Research Section B 358, 59-64 (2015)

　　[12]T. Zhang, K. Zhou, and Z. Q. Chen*, Defect structure of thermoelectric Zn4Sb3. Phys. Status Solidi B 252, 2179-2184 (2015)

　　[13]H. F. He and Z. Q. Chen*, Positron annihilation studied defects and their influence on thermal conductivity of chemically synthesized Bi2Te3 nanocrystal. Acta Phys. Sin. 64, 207804 (2015) (in Chinese)

　　[14]T. Zhang, K. Zhou, Z. Q. Chen*. Strain rate effect on plastic deformation of nanocrystalline copper investigated by molecular dynamics. Materials Science and Engineering: A 648, 23-30 (2015)

　　[15]Y. W. Liu, C. Qian, L. J. Qu, Y. N. Wu, Y. Zhang, X. H. Wu, B. Zou, W. X. Chen, Z. Q. Chen, Z. G. Chi, A Bulk Dielectric Polymer Film with Intrinsic Ultralow Dielectric Constant and Outstanding Comprehensive Properties. Chemistry of Materials, 27, 6543-6549 (2015)

　　[16]H. F. He, X. F. Li, Z. Q. Chen*, Y. Zheng, D. W. Yang, and X. F. Tang, Interplay between Point Defects and Thermal Conductivity of Chemically Synthesized Bi2Te3 Nanocrystals Studied by Positron Annihilation. Journal of Physical Chemistry C 118, 22389-22394 (2014)

　　[17]T. Li, D. W. Liu, H. Y. Dai, H. W. Xiang, Z. P. Chen, H. F. He, Z. Q. Chen, Effect of defect on the nonlinear and dielectric property of Ca(1–x)SrxCu3Ti4O12 ceramics synthesized by sol–gel process. Journal of Alloys and Compounds, 599, 145-149 (2014)

　　[18]M. Jiang, X. D. Xue, Z. Q. Chen*, Y. D. Liu, H. W. Liang, H. J. Zhang, A. Kawasuso, Defects and acceptor centers in ZnO introduced by C+-implantation. Journal of Materials Science, 49, 1994-1999 (2014)

　　[19]M. Jiang, L. L. Liu, Z. Wang, Z. Q. Chen*, Microstructure of ZnO-Li2CO3 compound studied by positron annihilation spectroscopy. Physca Status Solidi (a) 211, 206-212 (2014)

　　[20]Z. W. Liu, H. J. Zhang, Z. Q. Chen*, Monolayer dispersion of CoO on Al2O3 probed by positronium atom. Applied Surface Science, 293, 326-331 (2014)

　　[21]B. Zou, Z.Q. Chen*, C.H. Liu, J.H. Chen, Microstructure evolution of heavily deformed AA5083 Al–Mg alloy studied by positron annihilation spectroscopy. Applied Surface Science, 296, 154-157 (2014)

　　[22]B. Zou, Z.Q. Chen*, C.H. Liu, J.H. Chen, Vacancy–Mg complexes and their evolution in early stages of aging of Al–Mg based alloys. Applied Surface Science, 298, 50-55 (2014)

　　[23]D. D. Wang, N. Qi, M. Jiang, Z. Q. Chen*, Defects versus grain size effects on the ferromagnetism of ZrO2 nanocrystals clarified by positron annihilation, Applied Physics Letters, 102, 042407 (2013).

　　[24]M. Jiang, D. D. Wang, Z. Q. Chen*, S. Kimura, Y. Yamashita, A. Mori, and A. Uedono, Chemical effect of Si+ ions on the implantation-induced defects in ZnO studied by a slow positron beam, Journal of Applied Physics, 113, 043506 (2013)

　　[25]C. Y. Li, H. J. Zhang, Z. Q. Chen*, Reaction between NiO and Al2O3 in NiO/r-Al2O3 catalysts probed by positronium atom, Applied Surface Science, 266, 17-21 (2013)

　　[26]Qi Ning, Jia Yan-Lin, Liu Hui-Qun, Yi Dan-Qing, Z. Q. Chen*, Evolution of Defects in Deformed Cu-Ni-Si Alloys during Isochronal Annealing Studied by Positron Annihilation, Chinese Physics Letters, 29, 127803 (2012)

　　[27]H. J. Zhang, Z. Q. Chen*, and S. J. Wang, Monolayer dispersion of NiO in NiO/Al2O3 catalysts probed by positronium atom, Journal of Chemical Physics, 136, 034701 (2012)

　　[28]M. Jiang, D. D. Wang, B. Zou, Z. Q. Chen*, A. Kawasuso, and T. Sekiguchi, Effect of high temperature annealing on defects and optical properties of ZnO single crystals, Phys. Status Solidi A 11, 2126 (2012)

　　[29]Zhi-Yuan Chen, Z. Q. Chen*, B. Zou, X. G. Zhao, Z. Tang, and S. J. Wang, Defect mediated ferromagnetism in Ni-doped ZnO nanocrystals evidenced by positron annihilation spectroscopy, Journal of Applied Physics, 112, 083905 (2012)

　　[30]D. D. Wang, Z. Q. Chen*, C. Y. Li, X. F. Li, C. Y. Cao, Z. Tang, Correlation between ferromagnetism and defects in MgO nanocrystals studied by positron annihilation, Physica B: Condensed Matter, 407, 2665-2669 (2012) (他引1次)

　　[31]S. H. Huang, Z. Q. Chen*, H. J. Zhang, Three-gamma annihilation of ortho-positronium in NiO/γ-Al2O3 catalysts detected by positron lifetime and coincidence Doppler broadening measurements, Radiation Physics and Chemistry, 81, 791-795 (2012)

　　[32]Zhang Hong-Jun, Liu Zhe-Wen, Z. Q. Chen*, S. J. Wang, Chemical Quenching of Positronium in CuO/Al2O3 Catalysts, Chinese Physics letters, 28, 017802 (2011)

　　[33]Qi Ning, Wang Yuan-Wei, Wang Dong, Wang Dan-Dan, Z. Q. Chen*, Positron annihilation study of the microstructure of Co doped ZnO nanocrystals, Acta Phys. Sin. 60, 107805 (2011)) (他引2次)

　　[34]Zhi-Yuan Chen, Z. Q. Chen*, D. D. Wang, S. J. Wang, Correlation between interfacial defects and ferromagnetism of BaTiO3 nanocrystals studied by positron annihilation, Applied Surface Science, 258, 19-23 (2011) (他引4次)

　　[35]Dong Wang, Z. Q. Chen*, D. D. Wang, J. Gong, C.Y. Cao, Z. Tang, L.R. Huang, Effect of thermal annealing on the structure and magnetism of Fe-doped ZnO nanocrystals synthesized by solid state reaction, Journal of Magnetism and Magnetic Materials, 322, 3642-3647 (2010) (他引7次)

　　[36]C. Li, H.J. Zhang, Z. Q. Chen*, Chemical quenching of positronium in Fe2O3/Al2O3 catalysts, Applied Surface Science, 256, 6801-6804 (2010)

　　[37]H. J. Zhang, Z. Q. Chen*, S. J. Wang, A. Kawasuso and N. Morishita, Spin conversion of positronium in NiO/Al2O3 catalysts observed by coincidence Doppler broadening technique, Phys. Rev. B 82, 035439 (2010)

　　[38]D. Wang, Z. Q. Chen*, D. D. Wang, N. Qi, J. Gong, C. Y. Cao, and Z. Tang, Positron Annihilation study of the interfacial defects in ZnO nanocrystals: Correlation with ferromagnetism, J. Appl. Phys. 107, 023524 (2010) (他引25次)

　　[39]D. Wang, Z. Q. Chen*, F. Zhou, W. Lu, M. Maekawa, A. Kawasuso, Ferromagnetism and microstructure in Fe+-implanted ZnO, Applied Surface Science, 255, 9371-9375 (2009) (他引3次)

　　[40]Z. Q. Chen, K. Betsuyaku, A. Kawasuso, Vacancy defects in electron-irradiated ZnO studied by Doppler broadening of annihilation radiation, Phys. Rev. B 77, 113204 (2008) (他引16次)

　　[41]Z. Q. Chen, M. Maekawa, A. Kawasuso, and H. Naramoto, Ion species dependence of the implantation-induced defects in ZnO studied by a slow positron beam, Phys. Stat. Sol. (c) 4, 3646 (2007) (他引1次)

　　[42]X. Q. Meng, Z. Q. Chen, P. Jin, Z. G. Wang, and Long Wei, Defects around self-organized InAs quantum dots measured by slow positron beam, Appl. Phys. Lett. 91, 093510 (2007) (他引4次)

　　[43]Z. Q. Chen, S. J. Wang, M. Maekawa, A. Kawasuso, H. Naramoto, X. L. Yuan, and T. Sekiguchi, Thermal evolution of defects in as-grown and electron-irradiated ZnO studied by positron annihilation, Phys. Rev. B 75, 245206 (2007) (他引37次)

　　[44]Z. Q. Chen, A. Kawasuso, Vacancy-type defects induced by He-implantation in ZnO studied by a slow positron beam, Acta Phys. Sin. 55, 4353 (2006) (他引1次)

　　[45]Z. Q. Chen, M. Maekawa, A. Kawasuso, S. Sakai, and H. Naramoto, Annealing process of ion-implantation-induced defects in ZnO: Chemical effect of the ion species, J. Appl. Phys. 99, 093507 (2006) (他引33次)

　　[46]Z. Q. Chen, M. Maekawa, A. Kawasuso Energy Variable Slow Positron Beam Study of Li+-Implantation-Induced Defects in ZnO, Chinese Physics Letters, 23, 675 (2006) (他引3次)