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个人简介

材料科学和晶体结构专家。1980年毕业于吉林大学物理系,1987年在中国科学院金属研究所获博士学位。1987和1990年分别被晋升为副研究员和研究员。2001年当选为中国科学院院士。全国政协第九届、第十届、第十一届委员。2003年2月-2009年9月任北京工业大学副校长(正校级)。2010年3月-至今浙江大学研究员,博导。

研究领域

显微结构 高温合金

近期论文

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1. K. Zheng, X. D. Han, L. H. Wang, Y. F. Zhang, Y. H. Yue, Y. Qin, X. N. Zhang, and Z. Zhang, “Atomic Mechanisms Governing the Elastic Limit and the Incipient Plasticity of Bending Si Nanowires”, Nano Lett. 9, 2471 (2009). 2. X. L. Du, Z. X. Mei, Z. L. Liu, Y. Guo, T. C. Zhang, Y. N. Hou, Z. Zhang, Q. K. Xue, and A. Y. Kuznetsov, “Controlled Growth of High-Quality ZnO-Based Films and Fabrication of Visible-Blind and Solar-Blind Ultra-Violet Detectors”, Adv. Mater. 21, 1 (2009). 3. K. Wang, X. D. Han, Z. Zhang, L. C. Wu, B. Liu, Z. T. Song, S. L. Feng, “Synthesis and characterization of phase change memory Cells”, Sci. China Ser. E-Technol. Sci. 52, 2724 (2009). 4. K. Wang, X. D. Han, Z. Zhang, L. C. Wu, B. Liu, Z. T. Song, S. L. Feng, “Achieving Multiple Resistance States in Phase-Change Memory Cell”, Jpn. J. Appl. Phys. 48, 074501 (2009). 5. D. F. Zhang, H. Zhang, L. Guo, K. ZHeng, X. D. Han, and Z. Zhang, “Delicate control of crystallographic-facet-oriented Cu2O nanocrystals and its correlated adsorption ability”, J. Mater. Chem 19, 5220 (2009). 6. W. Sun, J. P. Wang and Z. Zhang, “Structural Defects in Al-Ni-Rh and Al-Pd-Fe Crystalline Approximant Phases”, Z. Kristallogr. 224, 75 (2009). 7. C. J. Jia, L. D. Sun, F. Luo, X. D. Han, L. J. Heyderman, Z. G. Yan, C. H. Yan, K. Zheng, Z. Zhang et al, “Large-Scale Synthesis of Single-Crystalline Iron Oxide Magnetic Nanorings”, J. Am. Chem. Soc. 130, 16968 (2008) 8. X. D. Han, S. L. Zheng, Y. F. Zhang, K. Zheng, S. B. Zhang, Z. Zhang, X. N. Zhang, X. Q. Liu, G. Chen, Y. J. Hao, X. Y. Guo, “Polarization Driven Covalently-Bonded Octahedral-Twinning and Backbone-Peripheral-Helical Nanoarchitectures”, Nano Lett. 8, 2258 (2008). * 9. W. Zhou, K. Zheng, L. He, R. M. Wang, L. Guo, C. P. Chen, X. D. Han, Z. Zhang, “Ni Ni3C Core–Shell Nanochains and Its Magnetic Properties One-Step Synthesis at Low Temperature”, Nano Lett. 8, 1147 (2008). * 10. P. F. Xing, Y. X. Chen, S. S. Yan, G. L. Liu, L. M. Mei, K. Wang, X. D. Han, Z. Zhang, “High temperature ferromagnetism and perpendicular magnetic anisotropy in Fe-doped In2O3 films ”, Appl. Phys. Lett. 92, 022513 (2008). 11. Y. Qin, X. N. Zhang, K. Zheng, H. Li, X. D. Han, Z. Zhang, “Unusual Catalyst-free Epitaxial Growth of Silicon Nanowires”, Appl. Phys. Lett. 93, 063104 (2008). 12. Y. Cheng, X. D. Han, X. Q. Liu, K. Zheng, Z. Zhang et al, “Self-Extrusion of Te-Nanowire from Si-Sb-Te Thin Films”, Appl. Phys. Lett. 93, 183113 (2008). 13. D. Lan, Y. R. Wang, X. L. Du, Z. X. Mei, Q. K. Xue, K. Wang, X. D. Han, Z. Zhang, “Large scale fabrication of periodical bowl-like micropatterns of single crystal ZnO”, Crystal Growth & Design 8, 2912 (2008). 14. K. Wang, X. D. Han, Z. Zhang, T. Li, M. Zhang, H. Yan, “Fabrication, Characterization, and the Rectifying Properties of the Interfacial Structural Controlled LaSrMnO-Si Heterojunctions”, J. Appl. Phys. 103, 014315 (2008). 15. T. Zhang, Y. Chen, Z. T. Song, B. Liu, S. L. Feng, X. D. Han, Z. Zhang, B. Chen, “Comparison of the crystallization of Ge–Sb–Te and Si–Sb–Te in a constant-temperature annealing process”, Scrip. Mater. 58, 977 (2008). 16. S. C. Mao, X. D. Han, Y. B. Tian, J. F. Luo, Z. Zhang, Y. Ji, M. H. Wu, “In situ EBSD investigations of the asymmetric stress-induced martensitic transformation in TiNi shape memory alloys under bending”, Mater. Sci. Engi. A 498, 278 (2008). 17. J. X. Deng, Y. F. Tian, S. S. Yan, Q. Cao, G. L. Liu, Y. X. Chen, L. M. Mei, G. Ji, Z. Zhang, “Magnetism of amorphous Ge1-xMnx magnetic semiconductor films ”, J. Appl. Phys. 104, 013905 (2008). 18. G. Ji, Z. Zhang, Y. X. Chen, S. S. Yan, Y. H. Liu, and L. M. Mei, “Current spin polarization and spin injection efficiency in ZnO-based ferromagnetic semiconductor junctions”, Acta Metall.Sin. 22, 153 (2008). 19. H. M. Wu, W. Sun, Z. Zhang, L. Liu, and T. Zhang, “SEM study of quasi-crystallized Zr65Cu12.5Ni10Al7.5Ag5 amorphous alloys at initial stage”, Rare Metal Mat. Eng. 37, 823 (2008). 20. G. Ji, S. S. Yan, Y. X. Chen, Q. Cao, W. Xia, Y. H. Liu, L. M. Mei, Z. Zhang, “Spin injection from ferromagnetic semiconductor CoZnO into ZnO”, J. Mater. Tech. 24, 415 (2008). 21. Y. F. Zhang, X. D. Han, K. Zheng, Z. Zhang, X. N. Zhang, J. Y. Fu, Y. Ji, “Direct Observation of Super-Plasticity of Beta-SiC Nanowires at Low Temperature”, Adv. Funct. Mater. 17, 3435 (2007). * 22. X. D. Han, K. Zheng, Y. F. Zhang, X. N. Zhang, Z. Zhang, and Z. L. Wang, “Low-Temperature In Situ Large-Strain Plasticity of Silicon Nanowires”, Adv. Mater. 19, 2112 (2007). * 23. X. D. Han, Y. F. Zhang, K. Zheng, X. N. Zhang, Z. Zhang, Y. J. Hao, X. Y. Guo, J. Yuan, and Z. L. Wang, “Direct Observation of Low-Temperature Large Strain Plasticity and Atomic Mechanisms of Ceramic SiC Nanowires”, Nano Lett. 7, 452 (2007). * 24. X. D. Han, Z. Zhang and Z. L. Wang, “Experimental nanomechanics of one-dimensional nanomaterials by In situ microscopy”, Nano: breif reports and reviews 2, 249 (2007). * 25. Y. Wang, X. N. Wang, Z. X. Mei, and X. L. Du, J. Zou, J. F. Jia, Q. K. Xue, X. N. Zhang and Z. Zhang, “Epitaxial orientation of Mg2Si(110) thin film on Si(111) substrate ”, J. Appl. Phys. 102, 126102 (2007). 26. S. C. Mao, X. D. Han, Z. Zhang and M. H. Wu, “The nano- and mesoscopic cooperative collective mechanisms of inhomogenous elastic-plastic transitions in polycrystalline TiNi shape memory alloys”, J. Appl. Phys. 101, 103522 (2007). 27. Y. F. Tian, Y. P. Zhang, Shi-shen Yan, G. L. Liu, Y. X. Chen, L. M. Mei, G. Ji and Z. Zhang, “Electrical transport properties of (CoxAl1-x)2O3-v oxide magnetic semiconductor and corresponding Co–Al2O3 granular films”, Appl. Phys. Lett. 91, 013509 (2007). 28. Y. Z. Liu, H.T. Yuan, Z. Q. Zeng, X. L. Du, X. D. Han, Q. K. Xue, Z. Zhang, “Inversion domain boundary in a ZnO film”, Phil. Mag. Lett., 87, 687 (2007) 29. X. Q. Liu, X. D. Han and Z. Zhang, L. F. Ji and Y. J. Jiang, “The Crystallographic Structure of High Temperature Phase Ta2O5”, Acta Mater., 55, 2385 (2007). 30. W. Sun, Y. H. Chen and Z. Zhang, “Defect-modulated structures in Al-Ni-Rh crystalline approximants”, Philo. Mag.87, 2815 (2007). 31. X. Q. Liu, X. D. Han, Z. Zhang, L. F. Ji and Y. J. Jiang, “Structural correlations of the enhancement of dielectric permittivity in the (Ta2O5)0.92(TiO2)0.08 system”, Appl. Phys. Lett.90, 211904 (2007). 32. H. D. Li, X. N. Zhang, Z. Zhang, Z. X. Mei, X. L. Du and Q. K. Xue, “Epitaxial growth of CaO films on MgO(001)surface: Strain relaxationat the CaO/MgO heterointerface”, J. Appl. Phys. 102, 046103 (2007). 33. X. N. Wang, Y. Wang, Z. X. Mei, J. Dong, Z. Q. Zeng, H. T. Yuan, J. F. Jia, Q. K. Xue, X. N. Zhang, Z. Zhang, Z. F. Li and W. Lu, “Low-temperature interface engineering for high-quality ZnO epitaxy on Si(111)substrate”, Appl. Phys. Lett. 90, 151912 (2007). 34. H. D. Li, X. N. Zhang, Z. Zhang, Z. X. Mei, X. L. Du and Q. K. Xue, “Structure stability of epitaxial MgO-CaO solid-solution films:effect of diffusion”, J. Appl. Phys. Lett. 101, 106102 (2007). 35. Y. Z. Liu, Q. Y. Xu, H. Schmidt, L. Hartmann, H. Hochmuth, M. Lorenz, M. Grundmann, X. D. Han, and Z. Zhang, “Co location and valence state determination in ferromagnetic ZnO:Co thin films by atom-location-by-channeling-enhanced-microanalysis electron energy-loss spectroscopy”, Appl. Phys. Lett. 90, 154101 (2007). 36. J. F. Luo, S. C. Mao, X. D. Han, Z. Zhang, J. Wu, and M. H. Wu, “Crystallographic mechanisms of fracture in a textured polycrystalline TiNi”, J. Appl. Phys. 102, 043526 (2007). 37. Y. Z. Liu, X. D. Han and Z. Zhang, “Potential mapping of ZnO by off-axis electron holography”, Phil. Mag. Lett., 87, 103 (2007). 38. Z. M. Zeng, J. F. Feng, Y. Wang, X. F. Han, W. S. Zhan, X. G. Zhang, Z. Zhang, “Probing Spin-Flip Scattering in Ballistic Nanosystems”, Physical Review Letters 97, 106605 (2006). * 39. Y. H. Chen, W. Sun and Z. Zhang, “Approximant phases, phason planes and domain-boundary networks in Al-Ni-Rh alloys”, Phil. Mag. Lett. 86, 817 (2006). * 40. H. Tian, W. Sun,and Z. Zhang, “From phason planes to superstructures in an Al-Pd-Mn alloy”, Phil. Mag. Lett. 86, 539 (2006). 41. H. Tian, W. Sun, and Z. Zhang, “Determination of atomic structure of phason planes in the ξ‘-Al-Pd-Mn phase”, Phil. Mag. Lett. 86, 309 (2006). * 42. Z. Zhang, H. Tian, Y. H. Chen, and W. Sun, “Special planar defects in the structural complex metallic alloys of Al-Pd-Mn and Al-Ni-Rh”, International Journal of Materials Research (Zeitschrift fuer Metallkunde), July, 1001 (2006). 43. S. C. Mao, X. D. Han, Z. Zhang, M. H. Wu, “In situ TEM study of the thickness impact on the crystallization features of a near equal atomic TiNi thin film prepared by planar magnetron sputtering”, Mater. Trans. JIM 47, 536 (2006). 44. S. C. Mao, X. D. Han, M. H. Wu, Z. Zhang et al, “Effect of cyclic loading on apparent young's modulus and critical stress in nano-subgrained superelastic NiTi shape memory alloys”, Mater. Trans. JIM 47, 735 (2006). 45. Z. X. Mei, Y. Wang, X. L. Du, Z. Q. Zeng, M. J. Ying, H. Zheng, J. F. Jia, Q. K. Xue, and Z. Zhang, “Growth of In2O3 single-crystalline film on sapphire (0001) substrate by molecular beam epitaxy”, J. Crystal Growth 289, 686 (2006). 46. H. Q. Song, L. M. Mei, S. S. Yan, X. L. Ma, J. P. Liu, Y. Wang and Z. Zhang, “Microstructure, ferromagnetism, and magnetic transport of Ti1-xCoxO2 amorphous magnetic semiconductor”, J. Appl. Phys. 99, 123903 (2006). 47. X. N. Zhang, C. R. Li, Z. Zhang, “Controlling the growth direction of one-dimensional ZnO nanostructures by changing the oxygen content in the reaction atmosphere”, Appl. Phys. A 82, 33 (2006). 48. Y. Wang, Z. M. Zeng, S. Rehana, X. F. Han, X. C. Sun, Z. Zhang, “Microstructure investigation on barrier shapes of double barrier magnetic tunnel junctions”, J. Appl. Phys. 100, 054510 (2006). 49. Y. Z. Liu, M. J. Ying, X. L. Du, J. F. Jia, Q. K. Xue, X. D. Han, Z. Zhang, “The 30 degrees rotation domains in wurtzite ZnO films”, J. Crystal Growth 290, 631 (2006). 50. B. Dai, J. W. Cai, W. Y. Lai, Y. Z. Liu, Z. Zhang, F. B. Meng, Y. X. Li, “Large enhancement of exchange bias in CoFe/CrPt films through interfacial Mn addition”, J. Appl. Phys. 99, 073902 (2006). 51. Q. Wei, X. D. Han, Z. Zhang, “The substructures of martensite in a TiNiHf10 high temperature shape memory alloy”, Materials Letter 60, 3054 (2006). 52. Y. Wang, Z Zhang, ZM Zeng, XF Han, “Electron holography investigation of the barrier of magnetic tunnelling junctions”, Acta Phys. Sin., 55, 1148 (2006). 53. T Dai, YZ Liu, Z Zhang, “Electron holography determination of the growth polarity of GaN/AlGaN multi-quantum well structure”, Acta Phys. Sin., 55, 5829 (2006). 54. F. F. Li, R. Sharif, L. X. Jiang, X. Q. Zhang, X. F. Han,Y. Wang and Z. Zhang, “Thermal stability of Ir-Mn/Co-Fe-B/Al-O/Co-Fe-B tunnel junctions”, J. Appl. Phys. 98, 113710 (2005). 55. S. C. Mao, X. D. Han, J. F. Luo, Z. Zhang, “Microstructure and texture evolution of ultra-thin TiNi hot-rolled sheets studied by automated EBSD”, Mater. Lett. 59, 3567 (2005). 56. W. Lü, C. R. Li, Z. Zhang, “Study of band structure InxGa1-xN/GaN multiple quantum wells by high-resolution electron microscopy and electron holography”, Appl. Phys. Lett. 86, 041902 (2005). 57. Y. Wang, X. L. Du, Z. X. Mei, Z. Q. Zeng, M. J. Ying, H. T. Yuan, J. F. Jia, Q. K. Xue and Z. Zhang, “Cubic nitridation layers on sapphire substrate and their role in polarity selection of ZnO films”, Appl. Phys. Lett. 87, 051901 (2005). 58. Z. M. Zeng, X. F. Han, W. S. Zhan, Y. Wang, Z. Zhang, S. F. Zhang, “Oscillatory tunnel magnetoresistance in double barrier magnetic tunnel junctions”, Phys. Rev. B 72, 054419 (2005). 59. X. D. Han, Y. F. Zhang, X. Q. Liu, and Z. Zhang, Y. J. Hao and X. Y. Guo, “Lattice bending, disordering, and amorphization induced plastic deformation in a SiC nanowire”, J. Appl. Phys. 98, 124307(2005). 60. Z. X. Mei, X. L. Du, Y. Wang, M. J. Ying, Z. Q. Zeng, H. Zheng, J. F. Jia, Z. Zhang and Q. K. Xue, “Controlled growth of Zn-polar ZnO epitaxial film by nitridation of sapphire substrate”, Appl. Phys. Lett. 86, 112111 (2005). 61. C. J. Jia, L. D. Sun, Z. G. Yan, L. P. You, F. Luo, X. D. Han, Y. C. Pang, Z. Zhang, and C. H. Yan, “Single-Crystalline Iron Oxide Nanotubes”, Angew. Chem. Int. Ed. 44, 4328 (2005). 62. Q. Y. Xu, R. P. Wang, Z. Zhang, “Role of Ag in La1-xAgxMnO3 maganite perovskite”, Phys. Rev. B 71, 092401 (2005). 63. Y. Z. Liu, M. J. Ying, X. L. Du, Z.Q. Zeng, Z.X. Mei, J. F. Jia, Q. K. Xue, Z. Zhang, “Microstructure and polarity of epitaxial ZnO films grown on LSAT(111) substrate studied by transmission electron microscopy”, Phys. Lett. A, 339, 497 (2005). 64. B. Dai, J. W. Cai, W. Y. Lai,Y. K. An, Z. H. Mai, F. Shen, Y. Z. Liu, Z. Zhang, “Large exchange bias and high stability of CoFe/CrPt films with L10 CrPt as the pinning layer”, Appl. Phys. Lett. 87, 092506 (2005). 65. M. J. Ying, X. L. Du, Y. Z. Liu, Z. T. Zhou, Z. Q. Zeng, Z. X. Mei, J. F. Ji, H. Chen, Q. K. Xue, Z. Zhang, “Interface engineering for lattice-matched epitaxy of ZnO on (La,Sr)(Al,Ta)O3(111)substrate”, Appl. Phys. Lett. 87, 202107 (2005). 66. X. N. Zhang, Z. Zhang, C. R. Li, “Growth of one-dimensional Ag/Si/SiOx capsule nanostructures by self-assembled SiOx template”, Appl. Phys. A 81, 163 (2005). 67. Z. M. Zeng, X. F. Han, G. X. Du, W. S. Zhan, Y. Wang and Z. Zhang, “Magnetoresistance effect of double-barrier magnetic tunneling juction applied in spin transistors”, Acta. Phys. Sin. 54, 3351 (2005). 68. Z Zhang, T Zhu, YQ Feng, Z Zhang, “Electron holography investigation on the barrier structures of Co based magnetic tunnel junctions”, Acta Phys. Sin., 54, 5861 (2005). 69. J. W. Cai, W. Y. Lai, J. Teng, F. Shen, Z. Zhang, L. M. Mei, “Long-range oscillatory exchange interaction between antiferromagnetic FeMn layers across a Cu spacer”, Phys. Rev. B 70, 214428 (2004). 70. Z. X. Mei, Y. Wang, X. L. Du, M. J. Ying, Z. Q. Zeng, H. Zheng, J. F. Jia, Q. K. Xue, Z. Zhang, “Controlled growth of O-polar ZnO epitaxial film by oxygen radical preconditioning of sapphire substrate”, J. Appl. Phys. 96, 7108 (2004). 71. Y. Wang, X. L. Du, Z. X. Mei, Z. Q. Zeng, Q.Y. Xu, Q. K. Xue, Z. Zhang, “Defect characteristics of ZnO film grown on (0001) sapphire with an ultrathin gallium wetting layer”, J. Crystal Growth 273, 100 (2004). 72. M. J. Ying, X. L. Du, Z. X. Mei, Z. Q. Zeng, H. Zheng, Y. Wang, J. F. Jia, Z. Zhang, Q. K. Xue, “Effect of sapphire substrate nitridation on the elimination of rotation domains in ZnO epitaxial films”, J. Phys. D: Appl. Phys. 37, 3058 (2004). 73. X. N. Zhang, C. R. Li, Z. Zhang, Z. X. Cao, “Self-assembly of Ag/SiOx spherules in triangular pattern on strained surface of primary particles”, Appl. Phys. Lett. 85, 3570 (2004). 74. Q. Y. Xu, Y. G. Wang, B. You, J. Du, A. Hu, Z. Zhang, “Electron holography study on the microstructure of magnetic tunnelling junctions”, Ultramicroscopy 98, 297 (2004). 75. X. N. Zhang, C. R. Li, Z. Zhang, “One-dimensional growth induced by thermal stress”, Mater. Lett.58, 1917 (2004). 76. W. Lü, D. B. Li, C. R. Li, Z. Zhang, “Generation and behavior of pure-edge threading misfit dislocations in InxGa1-xN/GaN multiple quantum wells”, J. Appl. Phys. 96, 5267 (2004). 77. W. Lü, D. B. Li,C. R. Li, F. Shen, Z. Zhang, “Effect of critical thickness on structural and optical properties of In xGa1-xN/GaN multiple quantum wells”, J. Appl. Phys.95, 4362 (2004). 78. F Shen, T Zhu, X Xiang, John Q Xiao, Z Zhang, “An investigation of barrier/electrode interfaces and their related influence on tunnelling magnetoresistance using electron holography”, J. Phys. D 37, 1515 (2004). 79. Y. Z. Long, Z. J. Chen, Y. J. Ma, Z. Zhang, A. Z. Jin, C. Z. Gu, L. J. Zhang, Z. X. Wei, M. X. Wan, “Electrical conductivity of hollow polyaniline microspheres synthesized by a self-assembly method”, Appl. Phys. Lett. 84, 2205 (2004). 80. Y. J. Ma, F. Zhou, L. Lu, Z. Zhang, “Low-temperature transport properties of individual SnO2 nanowires”, Solid State Communications 130, 313 (2004). 81. Q. Y. Xu, Y. Wang, and Y. G. Wang, X. L. Du, Q. K. Xue, Z. Zhang, “Polarity determination of ZnO thin films by electron holography”, Appl. Phys. Lett. 84, 2067 (2004). 82. Y. Wang, Q. Y. Xu, X. L. Du, Z. X. Mei, Z. Q. Zeng, Q. K. Xue, Z. Zhang, “Determination of the polarity of ZnO thin films by electron energy-loss spectroscopy”, Phys. Lett. A 320, 322 (2004). 83. L. M. Cao, H. Tian, Z. Zhang, X. Y. Zhang, C. X. Gao and W. K. wang, ‘Nucleation and growth of feature-like boron nanowire nanojunctions”, Nanotechnology 15, 139 (2004). 84. Z. Q. Zeng, Y. Wang, X. L. Du, Z. X. Mei, X. H. Kong, J. F. Jia, Q. K. Xue, Z. Zhang, “Role of gallium wetting layer in high-quality ZnO growth on sapphire (0001) subatrate”, Science in China Ser. G 47, 612 (2004). 85. A. Z. Jin, Y. G. Wang, Z. Zhang, “Synthesis and characterization of Cu/SiO2-x composite nanowires”, J. Crystal Growth 252, 167 (2003). 86. H. R. Liu, Y. G. Wang, Q. B. Yan, Z. Zhang, “Interfacial structures of internally oxidized Cu-MgO composite with a near sigma 29 orientation revealed by HRTEM”, Journal of materials science letters 22, 1173 (2003). 87. Y. G. Wang, H. R. Liu, Q. B. Yang, Z. Zhang, “Determination of Inelastic Mean Free Path by Electron Holography Along with Electron Dynamic Calculation”, Chin. Phys. 20, 888 (2003). 88. Y. G. Wang, H. R. Liu, Q. B. Yang, Z. Zhang, “Determination of Mean Inner Potential by Electron Holography Along with Electron Dynavaic Simulation”, Chin. Phys. 20, 2214 (2003). 89. Q. Y. Xu, Z.M. Wang, F. Shen, Y.W. Du, Z. Zhang, “High-resolution electron microscopy study of Ni81Fe19 film with Co33Cr67 buffer layer”, Journal of Magnetism and Magnetic Materials 260, 393 (2003). 90. T. Zhu, W. S. Zhan, F. Shen, Z. Zhang, X. H. Xiang, G. Landry, J. Q. Xiao, 'Bulk—like contribution to tunnel m agnetoresistance in m agnetic tunnel junctions”, Chin. Phys. 12, 665 (2003). 91. B. Dai, J. W. Cai, W. Y. Lai, F. Shen, and Z. Zhang, “Approach to optimize the pinning effect of a NiMn layer with reduced thickness under a much shortened annealing process”, Appl. Phys. Lett. 82, 3722 (2003). 92. X. Y. Song, Y. Chen, C. Sequeira, Y. Q. Lei, Q. D. Wang, Z. Zhang, “Microstructural evolution of body-centered cubic structure related Ti–Zr–Ni phases in non-stoichiometric Zr-based Zr–Ti–Mn–V–Ni hydride electrode alloys”, J. Mater. Res. 18, 37 (2003). 93. S. Wang, K. Q. Zhang, Q. Y. Xu, M. Wang, R. W. Peng, Z. Zhang, and N. B. Ming, “Oscillations in electrochemical deposition of zinc”, J. Physical Society of Japan 72, 1574 (2003). 94. X. N. Zhang, C. R. Li and Z. Zhang, “Influence of mass transport on formation of Si-nanostructures”, Chin. Phys. Lett.20, 111 (2003). 95. J. Du, W. T. Sheng, L. Sun, B. You, M. Lu, A. Hu, Q. Y. Xu, Y. G. Wang, Z. Zhang, J. Q. Xiao, “Inverse tunnel magnetoresistance in over-oxidized FeCo/AlOx/Co juctions”, Phys Status Solidi A 199, 289 (2003). 96. B. You, W. T. Sheng, L. Sun, W. Zhang, J. Du. M. Lu, H. R. Zhai, A. Hu, Q. Y. Xu, Y. G. Wang, Z. Zhang, “Influence of annealing on the magneto-resistance effect and microstructure in the two-step oxidized FeCo/AlOx/Co tunnel juctions”, J. Phys. D 36, 2313 (2003). 97. Y. Z. Long, L. J. Zhang, Y. J. Ma, Z. J. Chen, N. L. Wang, Z. Zhang, M. X. Wan, “Electrical conductivity of an individual polyaniline nanotube synthesized by a self-assembly method”, Macromol. Rapid Commun. 24, 938 (2003). 98. Y. Wang, Q. Y. Xu, X. L. Du, Z. X. Mei, Z. Q. Zeng, Q. K. Xue, and Z. Zhang,“The determination of the polarity of ZnO film using electron energy-loss spectroscopy”,Proceedings of 2003’ Beijing Symposium on Electron Microscopy;17(2003). 99. Y. Wang, Q. Y. Xu, Y. G. Wang, X. L. Du, Q. K. Xue, and Z. Zhang,“The Determinnation of the polarity of ZnO films using electron holography”,Proceedings of International Tenth Beijing Conference and Exhibition on Instrumental Analysis A, 15(2003). 100.Q. Y. Xu, Y. G. Wang, Z. Zhang, B. You, J. Du, A. Hu,“Microstructure of annealed magnetic tunnel junction by electron microscopy”,J. Appl. Phys. 93, 6229(2003). 101.Y. G. Wang, W. Li, P. D. Han, Z. Zhang,“Void formation and failure in InGaN/AlGaN double heterostructures”,J. Crystal Growth 253, 404(2003). 102.X. H. Xiang, T. Zhu, F. Shen, Z. Zhang, and John Q. Xiao, “Recent developments in magnetic tunnel junctions”,IEEE Trans. Magn 39, 2770(2003). 103.F. Shen, T. Zhu, X. Xiang, J. Q. Xiao, E. Voelkl, Z. Zhang,“ Observation of the Potential Structure of the Barrier in Magnetic Tunnel Junctions Using High-resolution Electron Microscopy and Electron Holography”, Appl. Phys. Lett. 83, 5482(2003). 104.G. W. Zhou, J. C. Yang, F. T. Xu, J. A. Barnard,Z. Zhang,“Quantitative V-L-S Growth Model and Experiments of Fe Catalyzed Si Nanowire Formation”,Mat. Res. Soc. Symp. Proc. 737, F6.3.1(2003) 105.F. Shen, Q. Y. Xu, G. H. Yu, W. Y. Lai, Z. Zhang, Z. Q. Lu, G. Pan,“A specular spin valve with discontinuous nano-oxide layers”,Appl. Phys. Lett. 80, 4410 (2002). 106.H. Li, H. P. Sun, F. Shen and Z. Zhang,“A new modulated structure in GaN nanoparticles”,Phil. Mag. Lett. 82, 91 (2002). 107.Y. G. Wang, Z. Zhang, V. P. Dravid, P. Kung, M. Razehi,“Morphological characterization of selectively overgrown GaN via lateral epitaxy”,J. Mater. Sci. 37, 1951 (2002). 108.Y. G. Wang, F. Shen, Z. Zhang, J. W. Cai, W. Y. Lai,“Determination of the potential barrier at the metal/oxide interface in a specular spin valve structure with nano-oxide layers using electron holography”,Chin. Phys. Lett. 19, 1480 (2002). 109.Y. G. Wang, A. Z. Jin, and Z. Zhang,“ Cu/SiO2-x nanowires with compositional modulation structure grown via thermal evaporation”, Appl. Phys. Lett. 81, 4425 (2002). 110.Y. G. Wang, Z. Zhang, G. H. Yan, J. T. M. Hosson,“Determination of near coincident site lattice orientations in MgO/Cu composite”,J. Mater. Sci. 37, 2511 (2002). 111.T. Zhu, X. Xiang, F. Shen, Z. Zhang, G. Landry, D. V. Dimitrov, N. Garcia, and John Q. Xiao,“Bulk contributions to tunnel magnetoresistance in magnetic tunnel junctions” Phys. Rev. B 66, 094423 (2002). 112.L. M. Cao, K. Hahn, C. Scheu, M. Rühle, Y. Q. Wang, Z. Zhang, C. X. Gao, Y. C. Li, X. Y. Zhang, M. He, L. L. Sun, and W. K. Wang,“Template-catalyst-free growth of highly ordered boron nanowire arrays”,Appl. Phys. Lett. 80, 4226 (2002). 113.L. Dai, X. L. Chen, X. N. Zhang, A. Z. Jin, T. Zhou, B. Q. Hu, and Z. Zhang,“Growth and optical characterization of Ga2O3 nanobelts and nanosheets”,J. Appl. Phys. 92, 1062 (2002). 114.X. L. Ma, Y. L. Zhu, and Z. Zhang,“Growth orientation of one-dimensional silicon nanowires prepared by thermal evaporation”,Phil. Mag. Lett. 82, 461(2002). 115.L. M. Cao, K. Hahn, Y. Q. Wang, C. Scheu, Z. Zhang, C. X. Gao, Y. C. Li, X. Y. Zhang, L. L. Sun, W. K. Wang, and M. Rühle,“Feather-like Boron nanowires arranged in large-scale arrays with multiple nanojunctions”,Adv. Mater. 18, 1294 (2002). 116.J. L. Zhu, R. C. Yu, F. Y. Li, C. Q. Jin and Z. Zhang,“The structure and properties of the manganate with nominal composition La1.0Ca2.0Mn2O7”, Mater. Sci. Eng. B 95, 19 (2002). 117.R. C. Yu, L. C. Chen. J. L. Zhu, F. Y. Li, Z. X. Liu, Z. C. Qin, T. N. Yu, C. Q. Jin, X. F. Duan, and Z. Zhang, “Study of the products of C3N4H4 treated by high pressure-high temperature”, Mater. Sci. Eng. A; 328, 104 (2002). 118.L. M. Cao, Z. Zhang, L. L. Sun, C. X. Gao, M. He, Y. Q. Wang, Y. C. Li, X. Y. Zhang, G. Li, J. Zhang, W. K. Wang , “Well-aligned boron nanowire arrays”, Advanced Materials, 13, 1701 (2001). 119.L. M. Cao, C. X. Gao, H. P. Sun, G. T. Zou, Z. Zhang, X. Y. Zhang, M. He, M. Zhang, Y. C. Li, J. Zhang, D. Y. Dai, L. L. Sun, W. K. Wang, “Synthesis of diamond from carbon nanotubes under high pressure and high temperature”, Carbon 39, 311 (2001). 120.F. M. Gu, H. S. Bu, Z. Zhang, “A unique morphology of freeze-dried poly(ethylene oxide) and its transformation.”, Polymer 41, (2000). 121.J. Y. Li, Z.Y. Qiao, L. H. Chen, Z. Zhang, “Synthesis of beta-Ga2O3 nanorods”, J. Alloy Compd. 306, 300 (2000). 122.H. Chen, R. B. Huang, Z. C. Tang, L. S. Zheng and Z. Zhang, “Single titanium crystals encapsulated in carbon nanocages obtained by laser vaporization of sponge titanium in benzene vapor”, Appl. Phys. Lett. 77, 91 (2000). 123.G. Y. Yang, J. Zhu, W.D. Wang, Z. Zhang, F.W. Zhu, “Precipitation of nanoscale Co particles in a granual Cu-Co alloy with giant magnetoresistance”, Mater. Res. Bull. 35, 875 (2000). 124.H. P. Sun, D. M. Li, S. Yu, G. T. Zan and Z. Zhang, “Zn nanocrystals discovered from pencil-core”, J. Mater. Sci. Lett, 19, 875 (2000). 125.H. P. Sun, Z. Zhang, W. D. Wang, H. W. Jiang and W. Y. Lai, “Microstructure of columnar crystallites in Ni80Fe20/Cu magnetic multilayers”, J. Appl. Phys., 87, 2835 (2000). 126.R. P. Wang, G. W. Zhou, Y. L. Liu, S. H. Pan, H. Z. Zhang, D. P. Yu and Z. Zhang, “Raman spectral study of silicon nanowires: High-order scattering and phonon confinement effects”, Phys. Rev. B. 61, 16827 (2000). 127.X.Y. Song, X. B. Zhang, Z. Zhang, Y. Q. Lei and Q. D. Wang, 'Microstructure and Electrochemical properties of Ti-containing AB2 type hydrogen storage electrode alloy', Inter. J. Hydrogen Energy 25, 649 (2000). 128.R. P. Wang, Y. L. Zhou, S. H. Pan, Z. Zhang, “Structure characteristics of a-axis oriented PrBa2Cu3O7 thin films grown by pulsed laser deposition”, J. Crystal Growth 204, 293 (1999). 129.X.F. Zhang and Z. Zhang, “Progress in Transmission Electron Microscopy: I. Concepts and techniques; II. Application in Materials Sciences”,(Tsinghua University Press and Springer-Verlag, Beijing, Singapore; Sep. 1999, 870 pages). 130.W. D. Wang, F. W. Zhu, W. Y. Lai, and Z. Zhang, “Microstructure, magnetic properties and giant magnetoresistance of granular Cu-Co alloy”, J. Phys. D. Appl. Phys. 32, 1990 (1999). 131.Z. Zhang, “Crystal growth”, PNALT Acad. Sci. USA 96, 11069 (1999). 132.X. B. Zhang, X. G. Yang, X. Y. Song, Z. Zhang, “TEM investigation of ZrO2 in Zr(Ni0.55VxMn0.45-x)2 hydrogen storage alloys”, J. Alloy Compd. 295, 101 (1999). 133.X.Y. Song, X.B. Zhang, Y. Q. Lei, Z. Zhang, and Q.D. Wang, 'Effect of Microstructure on the Properties of Zr-Mn-V-Ni AB2 Type Hydride Electrode Alloys', Inter. J. Hydrogen Energy 24, 455 (1999). 134.G. W. Zhou, H. Li, H. P. Sun, D. P. Yu, Y. Q. Wang, X. J. Huang, L. Q. Chen and Z. Zhang, “Controlled Li doping of Si nanowires by electrochemical insertion method”, Appl. Phys. Lett. 75, 2447 (1999). 135.L. S. Cheng, K. Zhou, and Z. Zhang, 'Occurrence of cubic GaN and strain relaxation in GaN buffer layers grown by low-pressure metal-organic vapor phase epitaxy on (0001) sapphire substrate', Appl. Phys. Lett. 74, 661 (1999). 136.G. W. Zhou, D. P. Yu and Z. Zhang, 'Catalyst effects on formation of boron nitride nano-tubules synthesized by laser ablation', Solid State Comm. 109, 555 (1999). 137.X. Y. Song, Z. Zhang, X. B. Zhang, Y. Q. Lei, and Q. D. Wang, 'Effects of Ti substitution on the microstructure and electrochemical properties of Zr-Mn-V-Ni alloys', J. Materials Research 14, 1279 (1999). 138.G. W. Zhou and Z. Zhang, 'Growth morphology and micro-structural aspects of Si nano-wires synthesized by laser ablation', J. Crystal Growth. 197, 129 (1999). 139.G. W. Zhou, Z. Zhang, Z. G. Bai, and D. P. Yu, 'Transmission Electron Microscopy study of Si Nano-Wires', Appl. Phys. Lett. 73, 677 (1998). 140.L. S. Wang, X. L. Liu, Y. D. Zan, D. Wang, D. C. Lu, Z. G. Wang, Y. T. Wang, L. S. Cheng, Z. Zhang, “The growth and characterization of GaN grown on an Al2O3 coated (001) Si substrate by metalorganic vapor phase epitaxy”, J. Crystal Growth 193, 484 (1998). 141.F. M. Gu, H. S. Bu, and Z. Zhang, “Unique morphologies found in freeze-drived poly(ethylene oxide) prepared from dilute solutions”, Macromol. Chem. Phys. 199, 2597 (1998). 142.H. F. Yang, P. Han, L. S. Cheng, Z. Zhang, S. K. Duan and X. G. Teng, 'Microstructure evolution of GaN buffer layer on MgAl2O4 substrate', J. Crystal Growth 193, 478 (1998) 478. 143.H. S. Bu, J. Cao, Z. S. Zhang, and Z. Zhang, R. Festag, D.C. Joy, Y.K. Kwon, B. Wunderlich, “Structure of single molecule single crystal of isotactic polystyrene and their radiation resistance”, J. Polym. Sci. B 36, 105 (1998). 144.D. P. Yu, X. S. Sun, C. S. Lee, I. Bello, S. T. Lee, H. D. Gu, K. M. Leung, G. W. Zhou, Z. F. Dong, and Z. Zhang, 'Synthesis of Boron Nitride nanotubes by means of excimer laser ablation at high temperature', Appl. Phys. Lett. 72, 1966 (1998). 145.D. P. Yu, C. S, Lee, I, Bello, X. S. Sun, Y. H. Tang, G. W. Zhou, Z. G. Bai, Z. Zhang, and S. Q. Feng, 'Synthesis of Nano-scale silicon wires by excimer laser ablation at high temperature', Sol. Stat. Comm. 105, 403 (1998). 146.L. S. Cheng, Z. Zhang, G. Y. Zhang, and Z. J. Yang, 'Microstructures of GaN films grown by low pressure metal-organic vapor phase epitaxy on (01-12) sapphire substrates', J. Crystal Growth 191, 641 (1998). 147.X. D. Han, R. Wang, Z. Zhang, and D. Z. Yang “A new precipitate phase in a TiNiHf high temperature shape memory alloy”, Acta Metal. 46, 273 (1998). 148.Z. Zhang, “High-resolution electron microscopic study of some low dimensional nanostructures” (Review), Micros. Res. and Tech. 40, 163 (1998). 149.A.Y. Du, M. F. Li, T. C. Chong, Z. Zhang et al, “Investigation of dislocations and traps in MBE grown p-InGaAs/GaAs hetorostructures”, Thin Solid Films 311, 7 (1997). 150.X. C. Yang, G. R. Han, X. B. Zhang, P. Y. Du, Z. S. Ding and Z. Zhang, 'Photoluminescence of nanometer SiC powder' J. Materials Sci. & Tech, 13 (1997), 333-335. 151.X. X. Yang, R. Wang, H. P. Yan and Z. Zhang, 'Low energy electron-beam-induced recrystallization of continuous GaAs amorphous foils', Materials Science & Engineering B 49, 5 (1997). 152.X. D. Han, Z. Zhang, C. Y. Chung, J. K. L. Lai, and D. Z. Yang, “Martensitic Transformation in a Ti36.5Ni48.5Hf15 high temperature shape memory alloy”, Materials Transactions JIM, 38, 842 (1997). 153.X. N. Li, S. Jin, C. Dong, Z. Zhang, Z. X. Gong and T. C. Ma, “Transmission electron microscopic studies of ternary FeNi-Silicide layers prepared by metal vapor vacuum arc ion implantation”, Thin Solid Films 304, 196 (1997). 154.S. Jin, H. Bender, X. N. Li, Z. Zhang, C. Dong, Z. X. Gong and T. C. Ma, “Microstructural studies of FeSi2 layers produced by implantation of Fe into Si substrate”, Appl. Surf. Sci., 115, 116 (1997). 155.X. D. Han, W. H. Zou, R. Wang, S. Jin, Z. Zhang, T. C. Li, and D. Z. Yang, “ Microstructure of the NiTi shape memory alloy synthesized by explosive shock-wave compression of Ti-Ni powder mixture”, J. Materials Sci. 32, 4723 (1997). 156.Y. H. Gao, Z. Zhang, L. S. Liao, and X. M. Bao, 'On high resolution electron microscopy study of blue-light emitting SiC nano-particles in C+-implanted silicon”, J. Mat. Res. 12, 1640 (1997). 157.L. S. Cheng, Z. Zhang, D. P. Yu, and G. Y. Zhang, “Effects of buffer layer on formation of domain boundaries in epilayer during film growth of GaN by low pressure metal-organic vapor phase epitaxy on sapphire substrates”, Appl. Phys. Lett. 71, 3694 (1997). 158.L. S. Cheng, G. Y. Zhang, D. P. Yu, and Z. Zhang, “An alternative microstructure of the GaN nucleation layer grown by low pressure Metal-organic vapor Phase Epitaxy on Sapphire substrate”, Appl. Phys. Lett. 70, 1408 (1997). 159.D. P. Yu, L. S. Chen, G. Y. Zhang, Y. Z. Tong, Z, J. Yong, S. X. Jin, L. P. You, Z. Q. Liu, and Z. Zhang, “TEM study of microstructure of GaN film grow on sapphire by organometallic vapour phase epitaxy”, Defects and Diffusion Forum, 148, 122 (1997). 160.X. X. Yang, R. H. Wang, H. P. Yan, and Z. Zhang et al, “Low energy electron beam induced recrystallization of continuous GaAs amorphous foils”, Mater. Sic. Engin B 49, 5 (1997). 161.D. P. Yu, J. D. Guo, X. L. Xu, and Z. Zhang et al, “Phase transition of the HgBa2Ca2Cu3O8 superconducting phase by in-situ heating in TEM”, Physica C 282, 923 (1997). 162.X. L. Xu, D. P. Yu, S.Q. Feng, and Z. Zhang et al, “TEM characterization of calcium-oxygen nanorods”, Nanostructure Materials 8, 373 (1997). 163.S. Q. Feng, D. P. Yu, G. Hu and Z. Zhang, “The HREM observation of cross-sectional structure of carbon nanotubues”, J. Phys. Chem. Solids 58, 1887 (1997). 164.X. D. Han, R. Wang, Z. Zhang and D. Z. Yang, “The in-situ observation of the martensite transformations in a TiNiHf high temperature shape memory alloy”, Materials Letters 30, 23 (1997). 165.K. H. Kuo and Z. Zhang, 'Stable Al-Cu-Co Decagonal quasicrystals', Prog. Crystal growth and Charact. 34, 191 (1997). 166.H. S. Bu, S. H. Shi, E. Q. Chen, H. J. Hu, Z. Zhang, and B. Wunderlich, “Single- molecule single crystal of poly (ethylene oxide)”, J. Macromol. Sci. Phys. B35, 731 (1996). 167.S. Jin, X. N. Li, Z. Zhang, C. Dong, Z. X. Gong, H. Bender, and T. C. Ma, “Ion beam syntheses and microstructure studies of a new FeSi2 phase”, J. Appl. Phys. 80, 3306 (1996). 168.A.Y. Du, M. F. Li, T. C. Chong, and Z. Zhang, “Dislocations and related traps in p-InGaAs/GaAs lattice mismatched heterostructures”, Appl. Phy. Lett. 69, 2849 (1996). 169.N. Jiang, A Hatta, T. Ito, Z. Zhang, T, Sasaki and A. Hiraki, “Electron microscopic interfacial analysis of diamond film grown on silicon substrate”, J. Mater. Res.11, 1783 (1996). 170.W. H. Zou, X. D. Han, R. Wang, Z. Zhang, W. Z. Zhang and K. L. Lai, “TEM study of the interphase and interface structure of Ti3Ni4 precipitates and parent phase in an aged TiNi shape memory alloy”, Materials Science & Engr. A 219, 142 (1996). 171.X. D., Han, W, H. Zou, R. Wang, Z. Zhang and D. Z. Yang, “ Structure and substructure of Martensite in a Ti-Ni-Hf high temperature shape memory alloy”, Acta Metall. 44, 3711 (1996). 172.J. L. Feng, Q. Xu and Z. Zhang, 'A new phenomenon of diffraction contrast images of stacking fault and anti-phase boundary and its application', Phil. Mag. Lett.74, 195 (1996). 173.G. Hu, X. F. Zhang, D. P. Yu, S. Q. Feng, W. Xu and Z. Zhang, “Cross-sectional transmission electron microscopy on carbon Nanotubules”, Solid State Commun. 98, 547 (1996). 174.D. P. Yu, G. Ren and Z. Zhang, 'High resolution electron microscopy analysis of structural defects in a (2/1 5/3)-type approximant of a decagonal quasicrystal of an Al-Pd-Mn alloy', Trans. Met. Mater. 27, 2911 (1996). 175.D. P. Yu, X. L. Ma and Z. Zhang, 'Phase transformation between multiple-twinned crystal and decagonal quasicrystal in an AlPdMn alloy', Scripta Materialia 34, 463 (1996). 176.D. P. Yu, Z. Zhang and N. Baluc, 'Incommensurate modulated structure in the icosahedral quasi-crystalline phase T2 of an Al-Li-Cu alloy', Phil. Mag. A 73, 499 (1996). 177.Q. J. Chen, L. X. Wang, Z. Zhang, J. Yang, and Z. D. Lin, “Epitaxially oriented growth of diamond on silicon by hot filament chemical vapour deposition”, Appl. Phys. Lett. 68, 176 (1996). 178.X. D. Han, W. H. Zou, R. Wang, Z. Zhang and D. Z. Yang, “The martensite structure and precipitate phase in a TiNiHf alloy”, Journal de Physic IV, 748 (1995). 179.S. H. Shi, E. Q. Chen, H. J. Hu, H. S. Bu and Z. Zhang, “Morphology of single-chain single crystals of poly(ethylene oxide)', Macromol. Rapid Commun. 16, 77 (1995). 180.X. Z. Li, R. C. Yu, Z. Zhang and K. H. Kuo, 'HREM study and structural models of the (1/1, 2/1) and (2/1, 1/1 ) orthorhombic approximants in an Al70Co15Ni10Tb5 alloy', Phil. Mag. B71, 261 (1995). 181.X. F. Zhang and Z. Zhang, 'On Polygonal Spiral of Coil-shaped Carbon Nanotubules', Phys. Rev. B 52, 5313 (1995). 182.S. Jin, J. H. Lin, L. J. Chen, W. D. Shi and Z. Zhang, 'Ion beam synthesed of Yttrium silicides in (111)Si', Nucl. Instr. and Meth. B 96, 347 (1995). 183.Z. Zhang, W. Geng, J. Van Landuyt and G. Van Tendeloo, 'A transmission electron microscopic study of tweed structure in Al62Cu17.5Co17.5Si3 decagonal quasicrystals', Phil. Mag. A 71, 1177 (1995). 184.S. Jin, M. Aindow, Z. Zhang and L. J. Chen, 'Formation and microstructure development of TiSi2 in (111)Si By Ti ion implantation and annealing at 950 oC', J. Mater. Res. 10, 891 (1995). 185.J. Yang, Z. Lin, L. X. Wang, S. Jin and Z. Zhang, 'Local hetero-epitaxial diamond formed on silicon wafers and observed by high resolution electron microscopy', J. Phys. D: 28, 1153 (1995). 186.X. D. Han, W. H. Zou, R. Wang, and Z. Zhang et al, “The martensite structure and aging precipitates of TiNiHf high temperatur shape memory alloy”, J. Phys. 5, 753 (1995). 187.X. D. Han, W. H. Zou, S. Jin, Z. Zhang and D. Z. Yang, 'The studies of the martensite transformations in a Ti36.5Ni48.5Hf15 alloy', Scripta Metall. 32, 1441 (1995). 188.S. H. Shi, E. Q. Chen, H. J. Hu, H. S. Bu, and Z. Zhang, 'Morphology of single-chain single crystals (ethylene oxide)', Macro-molecule of Chem. & Phys77-80, 77 (1995). 189.J. Yang, Z. D. Lin, L. X. Wang, S. Jin, and Z. Zhang, 'Structural study of diamond film formed on silicon wafer by hot-filament chemical vapor deposition method', Appl. Phys. Lett. 65, 3203 (1994). 190.S. Jin, X. Y. Wen and Z. Zhang, 'A transmission electron microscopic study of titanium silicides fabricated by implantation of titanium into silicon and thermal annealing', Thin Solid Films 249, 50 (1994). 191.H. S. Bu, S. H. Shi, E. Q. Chen, H. J. Hu. Z. Zhang and B. Wunderlich, 'Single-Molecule single crystals of poly (ethylene oxide)', J. Polym. Sci., Polym. Phys. Ed 731-747, 35 (1994). 192.K. H. Kuo, R. C. Yu, X. Z. Li and Z. Zhang, 'A HREM study of the 1/1, 2/1, and 2/1, 1/1 orthorhombic approximants in an AlCoNiTb alloy', Materials Science Forum 150-151, 247 (1994). 193.H. Zhang, Z. Zhang and K. Urban, 'A HREM Study of edge dislocations in Al62Cu20Co15Si3 decagonal quasicrystals ', Phil. Mag. Lett. 70, 41 (1994). 194.Y. Yan, Q. L. Wang, R. Wang, Z. Zhang and M. Kleman, 'Transmission electron microscopy observation of a dislocation loop in an Al70Co15Ni15 decagonal quasicrystal', Phil. Mag.. Lett. 70, 281 (1994). 195.N. Jiang, B. W. Sun, Z. Zhang and Z. Lin, “Nucleation and initial growth of diamond film on Si substrate”, J. Mater. Res. 9, 2695 (1994). 196.Z. Zhang, L. N. Ma, X. Z. Liao, and J. Van Landuyt, 'Twin-domains of Crystalline surface layer on decagonal quasicrystals and approximant', Phil. Mag. Lett. 70, 303 (1994). 197.Z. Zhang, Y. F. Yan, H. Zhang, and R. Wang, 'On determination of Burgers vectors of dislocations in decagonal quasicrystals by HREM and CBED', Materials Science Forum, 150-151, 335 (1994). 198.R. C. Yu, X. Z. Li, D. P. Xu, Z. Zhang, W. H. Su and K. H. Kuo, 'Orthorhombic phases with large unit cells coexisting with the decagonal quasicrystal in Al70Co15Ni10Tb5 alloy', Scripta Metall. 31, 1285 (1994). 199.H. L. Li, Z. Zhang, and K. H. Kuo, 'A quantitative evaluation of phason defects in Al-Cu-Co-Si decagonal phase by high resolution electron microscopy', Phys. Rev. B 50, 3645 (1994). 200.Y. F. Yan, Z. Zhang, and R. Wang, 'On determination of Burgers vector of type B dislocations in an Al70Co15Ni15 decagonal quasicrystals by convergent-beam electron diffraction', Phil. Mag. Lett. 69, 123 (1994). 201.N. Jiang, Z. Zhang, B. W. Sun, and D. Shi, 'An High Resolution Electron Microscopic Study of the Interface between Diamond Film and its Substrate', Appl. Phys. Lett. 63, 328 (1993). 202.Z. Zhang, H. L. Li and K. H. Kuo, 'A stable decagonal quasicrystal: Phason perturbed Penrose-Tiling model', Phys. Rev. B 48, 6949 (1993). 203.R. C. Yu, X. Z. Li, D. P. Xu, Z. Zhang, W. H. Su and K. H. Kuo, 'New orthorhombic approximants of the Al70Co15Ni10Tb5 decagonal quasicrystal', Phil. Mag. Lett. 67, 287 (1993). 204.Z. Zhang, N. C. Li and D. B. Williams, 'A transmission electron microscopy study of defects in Al-Cu-Co alloys', J. Appl. Phys. 73, 652 (1993). 205.Z. Zhang, Y. C. Feng, D. B. Williams and K. H. Kuo, 'A TEM study of interface dislocations between quasicrystals and surface crystalline layers in Al-Li-Cu, Al-Cu-Fe and Al-Cu-Co alloys', Phil. Mag. B. 67, 237 (1993). 206.K. Urban, M. Wollgarten, D. Gratias and Z. Zhang, “Electron microscopy of dislocations in quasicrystals”, J. Non-Cryst. Solids 153, 519 (1993). 207.Y. Zhuang and Z. Zhang, 'Misfit dislocations between decagonal quasicrystals and crystalline surface layers', J. of Non- crystalline solid 153 & 154, 119 (1993). 208.M. Wollgarten, Z. Zhang and K. Urban, 'Diffraction Contrast of Quasicrystalline dislocations in the Transmission Electron Microscope', Phil. Mag. Lett. 65, 1 (1992). 209.Z. Zhang and W. Geng, 'Direct observation of misfit dislocations at the interface between a decagonal quasicrystal and its epitaxial crystalline layers', Phil. Mag. Lett. 65, 211 (1992). 210.Z. Zhang and Y. Zhuang, 'A transmission electron microscopy study of dislocations in Al70Ni10Co20 and Al75Ni10Fe15 decagonal quasicrystals', Phil. Mag. Lett. 65, 203 (1992). 211.M. Wollgarten, D. Gratias, Z. Zhang, and K. Urban, 'On the determination of the Burgers vector of quasicrystal dislocations by transmission electron microscopy', Phil. Mag. A 64 819 (1991). 212.Z. Zhang, N. C. Li and K. Urban, 'A quasicrystalline transition stage in an Al65Cu20Fe15 alloy', J. Mate. Res. 6, 366 (1991). 213.Z. Zhang and N. C. Li, 'Orientation relationship between the icosahedral quasicrystalline and the B2-based crystalline phases in Al65Cu20Fe15 alloys', Scripta Met. 24, 1329 (1990). 214.* Z. Zhang, M. Wollgarten and K. Urban, 'Analysis of dislocations in icosahedral Al-Cu-Fe alloy by transmission electron microscopy', Phil. Mag. Lett. 61, 125 (1990).* 215.Z. Zhang and K. Urban, 'Dislocations and planar faults in decagonal Al-Cu-Co alloys', Scripta Met. 23, 1663 (1989). 216.* Z. Zhang and K. Urban, 'Transmission electron microscope observations of dislocations and stacking faults in a decagonal Al-Cu-Co alloy', Phil. Mag. Lett. 60, 97 (1989).* 217.Z. Zhang and K. Urban, 'Quasicrystalline phases in Al-Cu-Co alloys', Scripta Met. 23, 767 (1989). 218.L. X. He, X. Z. Li, Z. Zhang and K. H. Kuo, 'One dimensional quasicrystal in rapidly solidified alloys', Phys. Rev. Lett. 61, 1116 (1988). 219.Z. Zhang and K. H. Kuo, 'Quasicrystalline to crystalline transformation in (Ti1-xVx)2Ni alloys', Modern Phys. Lett. B1, 89 (1987). 220.Z. Zhang and K. H. Kuo, 'Local transitional order in the NiTi2 icosahedral quasicrystals', J. Microsc. 146, 313 (1987). 221.Z. Zhang and K. H. Kuo, 'Orientation relationship between the icosahedral and crystalline phases in (Ti1-xVx)2Ni alloys', Phil. Mag. B 54, L83 (1986). 222.W. J. Jiang, Z. Zhang and K. H. Kuo, 'HREM study of translation twins in NiZr', Phys. Stat. Soli.A 92, K5 (1985). 223.* Z. Zhang, H. Q. Ye and K. H. Kuo, 'A new icosahedral phase with m35 symmetry', Phil. Mag. A 52, L49 (1985).* 224.H. Q. Ye, Z. Zhang, and K. H. Kuo, 'A HREM study of ordered structures in Ni3(Ti1-xVx) alloys', Phys. Stat. Soli. A 83, 77 (1984).

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