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国家杰出基金获得者

韩晓东教授,固体所所长,博士生导师
国家电镜中心成员,国家杰出青年基金获得者(2008年),长江学者特聘教授(2012年),北京市新世纪百千万人才工程国家级人选(2009年),中国电子显微学会常务理事,秘书长(2008-2012),北京市优秀共产党员(2011);“北京市留学人员创新创业特别贡献奖”获得者(2012年)。1989年—1996年分别毕业于哈尔滨工业大学,哈尔滨工业大学研究生院,大连理工大学研究生院,取得学士,硕士和博士学位。在先进透射电子显微分析技术与应用,先进扫描电子显微分析与应用等方面有着长期的经验和知识积累。1997年 - 1998年在香港城市大学应用物理系做博士后。1998年-2001年在美国匹兹堡大学深造,开始接触先进扫描电子显微学。2001年-2004年,在美国HKL科技公司工作期间积累了丰富的先进扫描电子显微学经验(背散射电子衍射)。在马氏体相变晶体学、纳米力学、材料显微结构与物理性能相关性研究等领域取得重要成果,在国内外重要学术期刊发表论文70余篇,论文被国际重要学术期刊他引800余次。近年,从事原位外场下纳米及原子尺度材料力学行为及物理性能-显微结构相关性研究,取得重要进展。自2004年回国在北京工业大学工作。作为项目负责人主持了北京市教委(自然科学基金)面上及重点项目,“新世纪优秀人才”项目等,参加承担了国家863,973项目,近期作为项目负责人获得国家重大研究专项课题, 国家杰出青年基金(2008年,数理学部:50831001), 国家自然科学基金重点项目(2008年,工程与材料学部:10825419)。回国后在国内外重要学术期刊发表学术论文40余篇,其中包括:Nature Communications (1篇),Phys. Rev. Letters (3 篇),Nano Letters (6篇), Angew Chem. Int. Ed.(1篇), Advanced Materials(1篇),Advanced Functional Materials (1篇), JACS (1篇),Chemistry Communication (1篇),Acta Materiala(7篇), Applied Physics Letters(8篇), Journal of Applied Physics(4篇),Phil. Mag. Lett.(2篇)等。博士生中1人获全国百篇优秀博士论文奖,1人获全国百篇优秀博士论文提名奖,2人获北京市优秀博士论文奖。作为主要完成人参与的“Si和SiC 低温大应变塑性行为的发现”入选“2007年中国高等院校十大科技进展”。积极志愿为各种学术团体、期刊服务:是国际著名学术期刊美国化学学会JACS, Nano Letters 和Crystal Growth and Design及德国化学学会Adv. Materials, Advanced Functional Materials及美国物理学会Appl. Phys. Lett., Phil. Mag. Lett.,等近二十种国际重要学术期刊的审稿人。
主要学习经历情况
1985-1989     哈尔滨工业大学 (学 士) 材料科学与工程
1989-1992     哈尔滨工业大学 (硕 士) 材料科学与工程
1992-1996     大连理工大学(博 士)    材料科学与工程
1996-1998     香港城市大学   (博士后)     应用物理
1998-2001     美国匹兹堡大学 (博士后)    材料科学与工程
主要工作经历情况
1997.1-1998.6     香港城市大学 材料与物理博士后研究员
1998.6-2001.3     美国匹兹堡大学   材料科学   博士后研究员
2001.3-2004.3     美国HKL科技公司   材料与物理研究员
2004.3-至今       北京工业大学 材料与物理教授/博士生导师
获奖情况
1 ,2007 中国高等院校十大科技进展 国家教育部主要完成人
2 ,2007 新世纪优秀人才国家教育部
3 ,2006 北京工业大学科技成果一等奖 ,北京工业大学 主要完成人
4 ,2008 北京市创新标兵
5 ,2009 国家新世纪百千万人才工程国家级人选 (北京市)
6 ,2011 北京市优秀共产党员
代表性论文
2011
1. Formation mechanism of novel two-dimensional single crystalline dendritic copper plates in an aqueous environment,Xiaoxue Xu, Hong Yang, Yinong Liu, Yufeng Zheng, Li Li, Yuan Ji and Xiaodong Han
Acta Mater 59, 7177 (2011)
2. Science in China Series E: Technological Sciences, (2011)
3. Chinese Physics Letters (2011)
4. Shaping surface of palladium nanospheres through the control of reaction parameters, LM Wang et al and X.D. Han
Nano Technology 22, 305712 (2011)
5. Changes of optical, dielectric, and structural properties of Si(15)Sb(85) phase change memory thin films under different initializing laser power, Huang Huan et al and X.D. han
Journal of Alloys and Compounds 509, 5050 (2011)
6. nano-grainsTEM observations of dislocation annihilation and storage in
LH Wang, Z Zhang, E Ma andXD Han*,
Applied Physics Letters 98, 051905 (2011)
7. A new structural picture of the Ge2Sb2Te5 phase-change alloy
X. Q. Liu, X.B. Li, L. Zhang, Y.Q. Cheng, Z. G. Yan, M. Xu,X. D. Han*, S. B. Zhang, Z. Zhang and E. Ma
Phys. Rev. Letters 106, 025501 (2011)
8. Flower-Shaped PdI2 Nanomaterials with Remarkable Surface-enhanced Raman Scattering Activity
Lianmeng Wang, Lihua Wang, Enzhong Tan, Lin Guo* andXiaodong Han*
J of Chem. Mater., 21, 2369 (2011)
9. Approaching Theoretical Elastic Strain limit in nano copper crystals,
Yonghai Yue et al.,
Nano Letters 11, 3151 (2011)
10. New Structural Picture of Ge2Sb2Te5,
X.B. Li, X.Q. Liu,X.D. Han*, Z. Zhang and S.B. Zhang et al.,
Phys. Rev. Letters 107, 015501 (2011)
11. In situ Atomic Mechanisms of Large Bent Strain of Si Nanowires
L.H. Wang, K. Zheng,X.D. Han* et al.,
Nano Letters 11, 2382 (2011)
12. High elastic strain limit and uniform elongation of metallic glass nanowires at room temperature,
Q.S. Deng,X.D. Han*et al.,
Acta Mater 59, 6511 (2011)
13. Asymmetrical quantum dot growth on tensile and compressive-strained ZnO nanowire surfaces,
L.H. Wang,X.D. Han*, Y.F. Zhang, K. Zheng, P. Liu and Z. Zhang
Acta Mater, 59, 651 (2011)
14. Direct dynamic atomic mechanisms of strain-induced grain rotation in nanocrystalline, textured, columnar-structured thin gold films,
P. Liu, S.C. Mao, L.H. Wang,X.D. Han* and Z. Zhang
Scripta Mater, 64, 343 (2011)
2010
15. Pressure-induced crystallization of amorphous Ge2Sb2Te5
M Xu, Y Meng, YQ Cheng, XD Han and E Ma
Journal of Applied Physics, 108, 083519 (2010)
16. In Situ Observation of Dislocation Behavior in Nanometer Grains
Lihua Wang1, Xiaodong Han1, Pan Liu1, Yonghai Yue1, Ze Zhang1,2and En Ma3
17. Synthesis of tetrahexahedral Au nanocrystal with exposed high-index surfaces
J. Li, L.H. Wang, L. Liu, L. Guo*,X.D. Han*and Z. Zhang
Chemistry Communications 46, 5109 (2010)
18. Electron-beam-assisted superplastic shaping of nanoscale amorphous silica,
K. Zheng, C.C Wang, Y.Q. Cheng, Y.H. Yue,X.D. Han, Z. Zhang, Z.W. Shan, S.X. Mao, M.M. Ye, Y.D. Yin and E. Ma
Nature Communications, 1, 24 (2010)
19. Thermally Induced Phase Separation of Si-Sb-Te Alloy
Y. Cheng, N. Yan,X.D. Han*, Z. Zhang, T. Zhang, Z.T. Song, B. Liu, S.L. Feng
J of Non-Crystalline Solids, 356, 884 (2010)
20. Asymmetry of stress-induced B2-B19’ martensitic transformation in NiTi under uniaxial tension and compression, S. C. Mao, J. F. Luo, Z. Zhang, M. H. Wu, Y. Liu andX. D. Han*
Acta Mater., 58, 3357 (2010)
2009
21. A body-centered-cubic polymorph of the Ge2Sb2Te5 phase change alloy
Y. Q. Cheng, M. Xu, H. W. Sheng, Y. Meng,X. D. Hanand E. Ma
APPL. PHYS. LETT., 95, 131904 (2009)
22. High-cycle Fatigue Mechanisms of a NiTi Shape Memory Alloy under Different Mean Strains, Luo JF, Mao SC,Han XD*,Chen G, Zhang Z and Wu M,
Materials Forum, 610-613, 1120 (2009)
23. A Facile Approach to Fabrication of Bifunctional Magnetic-Optical Fe3O4@ZnS Microspheres, XG Yu, JQ Wan, Y Shan, KZ Chen, andX.D. Han
Chemistry Materials, 21, 4892 (2009)
CHINESE PHYSICS B, 7, 3079 (2009)
25. Synthesis and characterization of phase change memory cells
K. Wang,X.D. Han*, Z. Zhang, L.C. Wu, B. Liu, Z.T. Song and S.L Feng
Science in China Series E: Technological Sciences, 52, 2724 (2009)
26. Interfacial structure of InAs/Ga1-xInxSb superlattices
Maohua Quan, Lihua Wang, Ke Wang, Fengyun Guo,Xiaodong Hanand Liancheng Zhao
APPL. PHYS. LETT. 95, 012111 (2009)
27. Atomic Mechanisms Governing the Elastic Limit and the Incipient Plasticity of Bending Si Nanowires,
K. Zheng,X.D Han*, L.H. Wang, Y.H. Yue, Y. Qin, Y.F. Zhang, X.N. Zhang and Z. Zhang
NANO LETTERS, 9, 2471 (2009)
28. Delicate Control of Crystallographic Facet-oriented Cu2O Nanocrystals and the Correlated Adsorption Ability
H. Zhang, K. Zheng, D.F. Zhang, L. Guo,X.D. Han* and Z. Zhang
Journal of Chemistry Materials, 19, 5220 (2009)
29. Achieving Multiple Resistance States in Phase Change Memory Cell
K. Wang, X.D. Han and Z. Zhang
Japanese JAP, 48, 074501 (2009)
2008
30. Large-Scale Synthesis of Single-Crystalline Iron Oxide Magnetic Nanorings
Chun-Jiang Jia, Ling-Dong Sun, Feng Luo,XiaoDong Han, Laura J. Heyderman,
Zheng-Guang Yan, Chun-Hua Yan, Kun Zheng, Ze Zhang, et al.
J. AM. CHEM. SOC.,130 (50), 16968 (2008)
31. Polarization driven covalently-bonded octahedral-twinning and backbone-peripheral-helical nanoarchitectures
Han, XD; Zheng, SL; Zhang, YF, et al.
NANO LETTERS, 8, 2258 (2008)
32. Ni/Ni3C Core–Shell Nanochains and Its Magnetic Properties: One-Step Synthesis at Low Temperature
Wei Zhou et al andXiaodong Han*and Ze Zhang
NANO LETTERS, 8, 1147 (2008)
33. High temperature ferromagnetism and perpendicular magnetic anisotropy in Fe-doped In2O3 films
Xing, PF; Chen, YX; Yan, SS; et al. Han, XD and Zhang Z
APPL. PHYS. LETT., 92, 022513 (2008)
34. Unusual catalyst-free epitaxial growth of silicon nanowires by thermal evaporation
Y. Qin, X. N. Zhang K. Zheng, H. Li, X. D. Han* and Z. Zhang
APPL. PHYS. LETT., 93, 063104 (2008)
35. Self-Extrusion of Te-Nanowire from Si-Sb-Te Thin Films
Y. Cheng, X. D. Han*, X. Q. Liu, K. Zheng, Z. Zhang, B Liu, ZT Song and SL Feng
APPL. PHYS. LETT., 93, 183113 (2008)
36. Large scale fabrication of periodical bowl-like micropatterns of single crystal ZnO
Lan, D; Wang, YR; Du, XL, et al.
CRYSTAL GROWTH & DESIGN, 8, 2912 (2008)
37. Fabrication, characterization, and the rectifying properties of the interfacial structural controlled LaSrMnO-Si heterojunctions
Wang, K, Han, XD* Zhang, Zet al.
JOURNAL OF APPLIED PHYSICS, 103, 014315 (2008)
38. Comparison of the crystallization of Ge-Sb-Te and Si-Sb-Te in a constant-temperature annealing process
Zhang, T; Cheng, Y; Song, ZT; et al.
SCRIPTA MATERIALIA, 58, 977 (2008)
Fu X, Jiang J, Hu XR,Han XDand Yuan J
JOURNAL OF PHYSICS CONFERENCE SERIES, 126, 12072 (2008)
40. In situ EBSD investigations of the asymmetric stress-induced martensitic transformation in TiNi shape memory alloys under bending
S.C. Mao, X.D. Han*, Y.B. Tian, J.F. Luo, Z. Zhang, Y. Ji and M.H.Wu
MATERIALS SCIENCE & ENGINEERING A,498278 (2008)
2007
41. The nano- and mesoscopic cooperative collective mechanisms of inhomogenous elastic-plastic transitions in polycrystalline TiNi shape memory alloys
Mao, SC;Han, XD; Zhang, Z and Wu, M
JOURNAL OF APPLIED PHYSICS, 101, 103522 (2007)
42. Crystallographic mechanisms of fracture in a textured polycrystalline TiNi shape memory alloy
Luo, JF; Mao, SC; Han, XD and Zhang, Z
JOURNAL OF APPLIED PHYSICS, 102, 043526 (2007)
43. Low-temperature in situ large strain plasticity of ceramic SiC nanowires and its atomic-scale mechanism
Han, XD;Zhang, YF; Zheng, K; et al.
NANO LETTERS, 7, 452 (2007)
44. Low-temperature in situ large-strain plasticity of silicon nanowires
Han, XD;Zheng, K; Zhang, YF; et al.
ADVANCED MATERIALS, 19, 2112 (2007)
45. Potential mapping of ZnO by off-axis electron holography
Liu, YZ;Han, XD;Zhang, Z
PHILOSOPHICAL MAGAZINE LETTERS, 87, 103 (2007)
46. Inversion domain boundary in a ZnO film
Liu, YZ; Yuan, HT; Zeng, ZQ; et al,Han XDand Zhang Z
PHILOSOPHICAL MAGAZINE LETTERS, 87, 687 (2007)
47. The crystal structure of high temperature phase Ta2O5
Liu, XQ;Han, XD; Zhang, Z; et al.
ACTA MATERIALIA, 55, 2385 (2007)
48. Structural correlations of the enhancement of dielectric permittivity in the (Ta2O5)(0.92)(TiO2)(0.08) system
Liu, XQ;Han, XD; Zhang, Z; et al.
APPLIED PHYSICS LETTERS, 90, 211904 (2007)
49. Co location and valence state determination in ferromagnetic ZnO : Co thin films by atom-location-by-channeling-enhanced-microanalysis electron energy-loss spectroscopy
Liu, YZ; Xu, QY; Schmidt, H; et al.
APPLIED PHYSICS LETTERS, 90, 154101 (2007)
50. Direct observation of super-plasticity of beta-SiC nanowires at low temperature
Zhang, YF;Han, XD; Zheng, K, Zhang Z and Wang ZL
ADVANCED FUNCTIONAL MATERIALS, 17, 3435 (2007)
51. Electro-magnetic characteristics of Ti-50.8at% Ni in martensite transition
Hou, BH; Zhou, Q; Duan, P; et al.
ACTA PHYSICA SINICA, 56, 7170 (2007)
52. Experimental nanomechanics of one-dimensional nanomaterials by in situ microscopy
Han, XD;Zhang, Z; Wang, ZL
NANO, 2, 249 (2007)
53. 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
Han, XD; Mao, SC; Wei, Q; et al.
MATERIALS TRANSACTIONS, 47, 536 (2006)
2006
54. Synthesis and characterization of bamboo-like SiC nanofibers
Hao, YJ; Jin, GQ; Han, XD; et al.
MATERIALS LETTERS,60,1334 (2006)
55. The 30 degrees rotation domains in wurtzite ZnO films
Liu, YZ; Ying, MJ; Du, XL; et al.
JOURNAL OF CRYSTAL GROWTH, 290, 631 (2006)
56. Effect of cyclic loading on apparent young's modulus and critical stress in nano-subgrained superelastic NiTi shape memory alloys
Mao, SC; Han, XD; Wu, MH; et al.
MATERIALS TRANSACTIONS,47, 735 (2006)
57. The substructures of martensite in a TiNiHf10 high temperature shape memory alloy
Wei, Q; Han, XD; Zhang, Z
MATERIALS LETTERSVolume: 60, 3054 (2006)
2005
58. Lattice bending, disordering, and amorphization induced plastic deformation in a SiC nanowire
Han, XD; Zhang, YF; Liu, XQ; et al.
JOURNAL OF APPLIED PHYSICS, 98, 124307 (2005)
59. Iron oxide nanotubes - Single-crystalline iron oxide nanotubes
Jia, CJ; Sun, LD; Yan, ZG; et al. Han XD and Zhang Z
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 44, 4328 (2005)
60. Microstructure and texture evolution of ultra-thin TiNi hot-rolled sheets studied by automated EBSD
Mao, SC; Han, XD; Luo, JF; et al.
MATERIALS LETTERS,59, 3567 (2005)
2000
61. Phase transitions in reactive formation of Ti5Si3/TiAl in situ composites
Du, YJ; Rao, KP; Chung, JCY; et al.
METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE, 31, 763 (2000)
1999
62. Synthesis of nanocrystalline diamond by the direct ion beam deposition method
Sun, XS; Wang, N; Zhang, WJ; et al.
JOURNAL OF MATERIALS RESEARCH, 14, 3204 (1999)
63. Morphology of Si nanowires synthesized by high-temperature laser ablation
Tang, YH; Zhang, YF; Wang, N; et al.
JOURNAL OF APPLIED PHYSICS,85, 7981 (1999)
1998
64. Incommensurate modulated structure study of a Cu-Zn-Al-Zr phase
Chung, CY; Zou, WH; Han, XD; et al.
ACTA MATERIALIA,46, 5541 (1998)
65. Room-temperature growth of high-purity titanium nitride by laser ablation of titanium in a nitrogen atmosphere
Gu, HD; Leung, KM; Chung, CY; et al.
SURFACE & COATINGS TECHNOLOGY, 110, 153 (1998)
66. Pulsed laser deposition of NiTi shape memory alloy thin films with optimum parameters
Gu, HD; Leung, KM; Chung, CY; et al.
THIN SOLID FILMS, 330, 196 (1998)
1997
67. In situ observations of the reverse martensitic transformations in a TiNiHf high temperature shape memory alloy
Han, XD; Wang, R; Zhang, Z; et al.
MATERIALS LETTERS,30, 23 (1997)
68. A new precipitate phase in a TiNiHf high temperature shape memory alloy
Han, XD; Wang, R; Zhang, Z; et al.
ACTA MATERIALIA, 46, 273 (1997)
69. Martensitic transformation in Ti36.5Ni48.5Hf15 high temperature shape memory alloy
Han, XD; Chung, CY; Wang, R; et al.
MATERIALS TRANSACTIONS JIM, 38, 842 (1997)
70. Microstructure of TiNi shape-memory alloy synthesized by explosive shock-wave compression of Ti-Ni powder mixture
Han, XD; Zou, WH; Wang, RH; et al.
JOURNAL OF MATERIALS SCIENCE, 32, 4723 (1997)
1996
71. Structure and substructure of martensite in a Ti36.5Ni48.5Hf15 high temperature shape memory alloy
Han, XD; Zou, WH; Wang, R; et al.
ACTA MATERIALIA,44, 3711 (1996)
72. TEM and HREM study of the interphase interface structure of Ti3Ni4 precipitates and parent phase in an aged TiNi shape memory alloy
Zou, WH; Han, XD; Wang, R; et al.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 219, 142 (1996)
1995
SD Han, WH Zou, S. Jin and DZ Yang
Scripta Metall.&Mater., 32, 1441 (1995)
74. The martensite structure and aging precipitates of a TiNiHf high temperature shape memory alloy
Han, XD; Zou, WH; Wang, R; et al.
JOURNAL DE PHYSIQUE IV, 5, 753 (1995)
1994
75. SHOCK SYNTHESIS OF NITI INTERMETALLIC COMPOUNDS FROM A MIXTURE OF TITANIUM AND NICKEL ELEMENTAL POWDERS
ZHU, YL; LI, TC; LIU, JT; et al.
SCRIPTA METALLURGICA ET MATERIALIA, 30, 775 (1994)
发明专利
1韩晓东,张跃飞,张泽,一种热双金属片驱动的透射电子显微镜载网,
申请号:ZL200610144031.X (已授权)
2韩晓东,张跃飞,张泽,单根纳米线原位力学性能测试和结构分析的方法及其装置,申请号:ZL200610057989.5(已授权)
3韩晓东,岳永海,张跃飞,张泽,一种纳米材料原位结构性能测试的透射电镜载片,申请号:ZL200710122092.0(已授权)
4韩晓东,岳永海,郑坤,张跃飞,张泽,透射电镜用纳米材料应力测试载网,申请号:ZL200810056836.8(已授权)
5韩晓东,岳永海,张跃飞,张泽,低维材料应力状态下性能测试装置,
申请号:ZL200810239234.6 (已授权)
6韩晓东,岳永海,郑坤,张跃飞,张泽,压电陶瓷片驱动的扫描电镜中纳米材料拉伸装置,申请号:ZL200810056837.2 (已授权)
7韩晓东,成岩,王珂,张泽,宋志棠,刘波,张挺,封松林,用于相变存储
器的SiSbTe 系列相变薄膜材料,申请号:ZL200810103803.4, (已授权)
8韩晓东,张跃飞,毛圣成,张 泽 扫描电镜电子背散射衍射原位拉伸装置及测量的方法,申请号:200710176364.5,(已授权)
9韩晓东,郑坤,张泽,一种透射电镜中纳米线原位拉伸下力电性能测试装置,
申请号:200710119316.2,(已授权)
10)韩晓东,郑坤,张泽,透射电镜中纳米线原位压缩下力电性能测试装置,
申请号:200710119315.8,(已授权)
11韩晓东,张跃飞,张泽,扫描电镜中纳米线原位拉伸装置及方法,申请号:200610169839.3,(已授权)

12)张泽,王珂,刘攀,韩晓东,一种基于相变材料的透射电镜电学测量载网,申请号:200810056408.5(已授权)