基本信息
时东霞 女 汉族 博导 物理研究所
电子邮件：dxshi@aphy.iphy.ac.cn
联系电话：
通信地址：北京市海淀区中关村南三街8号
邮政编码：100190
部门/实验室：纳米实验室
研究领域 主要从事纳米体系的可控生长、结构特性及其在纳米器件应用中的研究。在合成的一系列有机功能薄膜上得到了稳定、重复的纳米信息存储，入选“2001年中国基础科学研究十大新闻”。对有机功能纳米体系的组装、相互作用机制和生长特性进行了系统研究，在纳米结构的可控生长方面取得了突破性进展，入选“中国科学院2006年十大重大创新成果”。和合作者在钌单晶基底上得到了厘米级、连续和高度有序的单层石墨烯，为石墨烯的深入研究及在器件方面的应用提供了基础。采用光吸收谱和STM结合，研究了单壁碳纳米管的单分子激光吸收，加强了对分子的光电特性及表面能量传输特性的认识。
究方向包括：
1、低维纳米体系的可控制备与表征；
2、纳米器件的构造及相关物理问题。

招生信息
招生专业070205-凝聚态物理

招生方向低维纳米体系、纳米器件与物理。

教育背景
学位1991年，武汉工业大学，学士；
1994年，武汉工业大学，硕士；
2002年，东北大学，博士。

出国学习工作2002年，德国明斯特大学物理所，访问；
2003－2004年，美国伊利诺依大学（UIUC） Beckman 研究所，博士后。

工作经历
工作简历
1995.7－2001.7 中科院物理研究所纳米物理与器件实验室（中科院北京真空物理实验室），助理研究员；
2001.8－2008.6 中科院物理研究所纳米物理与器件实验室，副研究员；
2008.7－ 中科院物理研究所纳米物理与器件实验室，研究员。

专利与奖励

奖励信息2008年度国家自然科学二等奖“原子分子操纵、组装及其特性的STM研究”

出版信息
发表论文2009年
[1] Alternating the crystalline structural transition of coronene molecular overlayers on Ag(110) through temperature increase
D.X. Shi, W. Ji, B. Yang, H.Y. Cun, S.X. Du, L.F. Chi, Harald Fuchs, Werner A. Hofer, H.-J. Gao
J. Phys. Chem. C, 113 (41), 17643 (2009)
[2] Highly Ordered, Millimeter-Scale, Continuous, Single-Crystalline Graphene Monolayer Formed on Ru (0001)
Y. Pan, H.G. Zhang, D.X. Shi, J.T. Sun, S.X. Du, F. Liu, and H.-J. Gao
Adv. Mater. 21, 2777 (2009)
[3] Structural properties of petra-tert-butyl zinc(II) phthalocyanine isomers on a Au(111) surface,
Z. T. Deng, H. M. Guo, W. Guo, L. Gao, Z. H. Cheng, D.X. Shi and H.-J. Gao
J. Phys. Chem. C, 113 (26), 11223 (2009)
[4] Conductance Switching Mechanism of Rose Bengal Organic Thin Films at Ambient Condition
L Cai, H.M. Guo, X Zhu, S.X. Du, D.X. Shi, H.J. Gao
Chin. Phys. B 18(4), 1622-05 (2009)
2008年
[1] Structural transformation of Ge dimers on Ge(001) surfaces induced by bias voltage
Z.H. Qin, D.X. Shi, H.-J. Gao
Chinese Physics B 17(12), 4580-05 (2008)
[2] Cathodoluminescent and electrical properties of an individual ZnO nanowire with oxygen vacancies
X.B. He, T.Z. Yang, J.M. Cai, C.D. Zhang, H.M. Guo, D.X. Shi, C.M. Shen, H.-J. Gao
Chinese Physics B 17(9), 3444-04 (2008)
[3] STM study of indium nanostructures formation on Ge(001) surface at different coverages and temperatures
Z.H. Qin, D.X. Shi, S.J. Pang, H.-J. Gao
Chinese Physics 17(3), 1055 (2008)
[4] Epitaxial growth of quinacridone derivative on Ag(110) studied by STM
X.B. He, J.M. Cai, D.X. Shi, Y. Wang and H.-J. Gao.
J. Phys. Chem. C 112, 7138 (2008)
2007年
[1] Reversible, erasable, and rewritable nanorecording on an H2 rotaxane thin film
M. Feng, L. Gao, Z.T. Deng, W. Ji, X.F Guo, S.X. Du, D.X. Shi, D.Q. Zhang, D.B. Zhu, and H.-J. Gao
J. Am. Chem. Soc. 129, 2204 (2007)
[2] Observation and determination of Ge nanoscale structures on Si(111)
Z.H. Qin, D.X. Shi, H.F. Ma, H.-J. Gao, S.W. Wang, S.T. Pantelides
Phys. Rev. B 75, 085313 (2007)
[3] Formation and evolution of a self-organized hierarchy of Ge nanostructures on Si(111)7x7 STM observations and first-principles calculations
H.F. Ma, Z.H. Qin, M.C. Xu, D.X. Shi, H.-J. Gao, S.W Wang, S.T. Pantelides
Phys. Rev. B 75, 165403 (2007)
[4] Adsorption behavior of iron phthalocyanine on Au(111) surface at submonolayer coverage
Z.H. Cheng, L. Gao, Z.T. Deng, N. Jiang, Q. Liu, D.X. Shi, S.X. Du, H.M. Guo, H.-J. Gao
J. Phys. Chem. C 111, 9240 (2007)
[5] Formation of graphene on Ru(0001) surface
P. Yi, D.X. Shi and H.-J. Gao
Chinese Physics 16(11), 3151 (2007)
[6] Formation and local electronic structure of Ge clusters on Si(111)-7×7 surface
H.F. Ma, M.C. Xu, B.Yang, D.X. Shi, H.M. Guo, S.J. Pang, H.-J. Gao
Chinese Physics 16(09), 2661(2007)
[7] Low-dimensional forest-like and desert-like fractal patterns formed in a DDAN molecular system
J.M. Cai, L.H. Bao, W. Guo, L. Cai, Q. Huan, J.C. Lian, H.M. Guo, K.Z. Wang, D.X. Shi, S.J. Pang, H.J. Gao
Chinese Physics letter 24(10), 2918 (2007)
2006年
[1] Role of lateral alkyl chains in modulation of molecular structures on metal surfaces
D.X. Shi, W. Ji, X. Lin, X.B. He, J.C. Lian, L. Gao, J.M. Cai, H. Lin, S.X. Du , F. Lin , C. Seidel, L.F. Chi, W.A. Hofer, H. Fuchs, H.-J. Gao
Phys. Rev. Lett. 96, 226101 (2006)
[2] Laser-assisted scanning tunneling microscopy of carbon nanotubes
J.B. Ballard, E.S. Carmichael, D.X. Shi, J.W. Lyding and M. Gruebele
Nano letter 6, 45 (2006)
[3] Selective analysis of molecular states by functionalized scanning tunneling microscopy tips
Z.T. Deng, H. Lin, W. Ji, L. Gao, X. Lin, Z.H. Cheng, X.B. He, J.L. Lu, D.X. Shi, W.A. Hofer, H.-J. Gao
Phys. Rev. Lett. 96, 156102 (2006)
[4] Understanding and controlling the weakly interacting interface in perylene/Ag(110)
L. Gao, Z.T. Deng, W. Ji, X. Lin, Z.H. Cheng, X.B. He, D.X. Shi, H.-J. Gao
Phys. Rev. B 73(7), 075424 (2006)
[5] Processing of an atomically smooth Ge(001) surface on a large scale
Z.H. Qin, D.X. Shi, W. Ji, S.J. Pang and H.-J. Gao
Nanotechnology 17, 2396 (2006)
[6] Changes in the structural properties and rate of hydrolysis of cotton fibers during extended enzymatic hydrolysis
L.S. Wang, Y.Z. Zhang, P.J. Gao, D.X. Shi, H.W. Liu, H.-J. Gao
Biotechnology and Bioengineering 93 (3), 443 (2006)
[7] Intrinsic current-voltage properties of nanowires with four-probe scanning tunneling microscopy: a conductance transition of ZnO nanowire
X. Lin, X.B. He, T.Z. Yang, W. Guo, D.X. Shi, H.-J. Gao D.D.D. Ma, S.T. Lee, F. Liu, X.C. Xie
Appl. Phys. Lett. 89, 043103 (2006)
[8] Synthesis, characterization and self-assemblies of magnetite nanoparticles
T.Z.Yang, C.M. Shen, H.T. Yang, C.W. Xiao, Z.C. Xu, S.T. Chen, D.X. Shi, H.J. Gao
Surf. Interface Anal. 38, 1063 (2006)
[9] Manipulation and four-probe analysis of nanowires in UHV by application of four tunneling microscope tips: a new method for the investigation of electrical transport through nanowires
X. Lin, X.B. He, J.L. Lu, L. Gao, Q. Huan, Z.T. Deng, Z.H. Cheng, D.X. Shi, and H.-J. Gao
Surf. Interface Anal. 38, 1096 (2006)
2005年
[1] Highly ordered self-assembly with large area of Fe3O4 nanoparticles and the magnetic properties
T.Z. Yang, C.M. Shen, Z.A.Li, H.R. Zhang, C.W. Xiao, S.T. Chen, Z.C. Xu, D.X. Shi, J.Q. Li, H.J. Gao
J. Phys. Chem. B 109, 23233 (2005)
[2] Nucleation and reshaping thermodynamics of Ni as catalyst of carbon nanotubes
L.H. Liang, F. Liu, D.X. Shi, W.M. Liu, X.C. Xie, and H.J. Gao
Phys. Rev. B 72(3), 035453 (2005)
[3] Strong photoluminescence of nanostructured crystalline tungsten oxide thin films
M. Feng, A.L. Pan, H.R. Zhang, Z.A. Li, F. Liu, H.W. Liu, D.X. Shi, B.S. Zou, H.J. Gao
Appl. Phys. Lett. 86, 141901 (2005)
[4] Four-probe scanning tunneling microscope with atomic resolution for electrical and electro-optical property measurements of nanosystems
X. Lin, X.B. He, J.L. Lu, L. Gao, Q. Huan, D.X. Shi and H.-J. Gao
Chinese Physics 14(8), 1536 (2005)
2004年及以前
[1] Structural evolution of pentacene on Ag(110) surface
Y.L. Wang, W. Ji, D.X. Shi, H.-J. Gao, L.F. Chi and H. Fuchs
Phys. Rev. B 69, 075408 (2004)
[2] Direct observation of surface structure of D-alanine and D-/L-valine crystals by atomic force microscopy and comparison with x-ray diffraction analysis
W.Q. Wang, Y.Gong, Z. Liang, F.L. Sun, D.X. Shi, H.J. Gao, X. Lin, P. Jiang, Z.M. Wang
Surface Science 512, L379 (2002)
[3] Reversible electrical optical switching on silver3-phenyl-1-ureidonitrile complex thin films
H.X. Zhang, D.X. Shi, Y.L. Song, H.W. Liu, S.M. Hou, Z.Q. Xue, H.-J. Gao
Chinese Physics 11(11), 1196 (2002)
[4] Recording at a nanometer scale on p-nitrobenzonnitrile thin films by scanning tunneling microscopy
D.X. Shi, Y. L. Song, D.B. Zhu, S. S. Xie, S. J. Pang, H.-J. Gao
Adv. Mater. 13(14), 1103 (2001)
[5] Nanometer-scale recording with transition time at nanosecond
D.X. Shi, D.C. Ba, S.J. Pang, H.-J. Gao
Appl. Surf. Sci. 182(1-2), 64 (2001)
[6] Ultrahigh data density storage with scanning tunneling microscopy
H.J. Gao, D.X. Shi, H.X. Zhang, X. Lin
Chinese Physics 10, Suppl., S179 (2001)
[7] Ferroelectric/superconductor heterostructures
W.F. Hu, D.X. Shi, T.S. Wang, W. Liu, X.J. Zhao, L. Li et al.
Ferroelectrics 264 (1-4), 1769 (2001)
[8] Two-dimensional self-organization of 1-nonanethiolcapped gold nanoparticles
P. Jiang, S.S. Xie, J.N. Yao, S.T. He, H.X. Zhang, D.X. Shi, S.J. Pang, H.J. Gao
Chinese Science Bulletin 46(12), 996 (2001)
[9] Influence of titling of SrTiO3 substrates on the morphology and superconductivity of YBa2Cu3O7-x thin films
W.F. Hu, T.S. Wang, D.X. Shi, X.J. Zhao, W. Peng, L. Li et al
Journal of Crystal Growth 231(1-2), 129 (2001)
[10] Formation of silver nanoparticles and self-assembled two-dimensional ordered superlattice
S.T. He, J.N. Yao, P. Jiang, D.X. Shi, H.X. Zhang, S.S. Xie, S.J. Pang, H.J. Gao
Laugmuir 17, 1571 (2001)
[11] Direct demonstration of structural transition for molecular recording with scanning tunneling microscopy
D.X. Shi, Y.L. Song, H.X. Zhang, P. Jiang, S.T. He, S.S. Xie, S.J. Pang, H.-J. Gao
Appl. Phys. Lett. 77(20), 3203 (2000)
[12] Nanometer-scale data storage on 3-phenyl-1-ureidonitrile thin film using scanning tunneling microscopy
D.X. Shi, L.P. Ma, S.S. Xie, and S.J. Pang
J. Vac. Sci. Technol. B 18 (3), 1187 (2000)
[13] Synthesis and characterization of C3N4 hard films
Y.S.Gu, Y.P. Zhang, X.R. Cheng, Z.Z. Tian, N.X. Chen, D.X. Shi, X.F. Zhang, L. Yue
Science in China (series A) 43(2), 185 (2000)
[14] Crystalline carbon nitride thin films deposited by microwave plasma chemical vapor deposition
Y.P. Zhang, Y.S. Gu, X.R. Chang, Z.Z. Tian, D.X. Shi, X.F. Zhang, L. Yue
Chinese Physics 9(7), 545 (2000)
[15] Carbon nitride thin films deposited on Pt substrates by microwave plasma chemical vapor deposition
Y.P. Zhang, Y.S. Gu, Z.Z. Tian, D.X. Shi, X.F. Zhang, L. Yue
Journal of University of Science and Technology Beijing 7(1), 42 (2000)
[16] Characterization of carbon nitride thin films deposited by microwave plasma chemical vapor deposition
Y.P. Zhang, Y.S. Gu, XR. Chang, Z.Z. Tian, D.X. Shi, X.F. Zhang, L. Yue
Surface and Coating Technology 127, 260 (2000)
[17] On the structure and composition of crystalline carbon nitride films synthesized by microwave plasma chemical vapor deposition
Y.P. Zhang, Y.S. Gu, X.R. Chang, Z.Z. Tian, D.X. Shi, X.F. Zhang
Materials Science and Engineering B 78, 11 (2000)
[18] Synthesis of crystalline C3N4 by MPCVD
D.X. Shi, X.F. Zhang, L. Yuan, Y.S. Gu, Y.P. Zhang, Z.J. Duan, X.R. Chang, Z.Z. Tian, N.X. Chen
Appl. Surf. Sci. 148, 50 (1999)
[19] Crystalline C3N4 Synthesized by MPCVD
Y.S. Gu, Y.P. Zhang, Z.J. Duan, X.R. Chang, Z.Z. Tian, N.X. Chen, C. Dong, D.X. Shi, X.F. Zhang, L. Yuan
Journal of Material Science 34, 3117 (1999)
[20] Crystalline b-C3N4 films deposited on metallic substrates by microwave plasma chemical vapor deposition
Y.S. Gu, Y.P. Zhang, Z.J. Duan, X.R. Chang, Z.Z. Tian, D.X. Shi, L.P. Ma, X.F. Zhang, L. Yuan
Material Science and Engineering A 271, 206 (1999)
[21] A new model of phycobilisome in spirulina platensis
Y.Z. Zhang, X.L. Chen, B.C. Zhou, C.K. Zhang, J. Liu, D.X. Shi and S.J. Pang
Science in China (Series C)-LIFE SCIENCES 42(1), 74 (1999)
[22] Structure investigation of cellobiohydrolase 1 from trichoderma pseudokoningill S38 with a scanning tunneling microscope
Y.Z. Zhang, J. Liu, P.J. Gao, L.P. Ma, D.X. Shi, S.J. Pang
Appl. Phys. A 67, 483 (1998)
[23] Nanometer-scale regular grooves and ridges created with scanning tunneling microscope
H.Q. Yang, N. Liu, J.N. Gao, Y.S. Jiang, D.X. Shi, Z.L. Ma, Z.Q. Xue, S.J. Pang
Applied Surface Science 126, 337 (1998)
[24] Scanning tunneling microscope study on polyacrylonitrile based carbon fibers
D.X. Shi, N. Liu, H.Q. Yang, J.N. Gao, Y.S. Jiang, S.J. Pang, X.B. Wu, Z. Ji
Journal of Material Research 12 (10), 2543 (1997)
[25] Size and arrangement of elementary fibrils in crystalline cellulose studied with scanning tunneling microscope
Y.Z. Zhang, X.L Chen, J. Liu, P.J. Gao, D.X. Shi, S.J. Pang
J. Vac. Sci. and Technol. B 15 (4), 1502 (1997)
[26] Study on surface and intersurface structures of nanocrystalline silicon by scanning tunneling microscope
J.N. Gao, H.Q. Yang, N. Liu, D.X. Shi, Y.S. Jiang, Z.Q. Xue, S.J. Pang, Y.L. He
J. Vac. Sci. and Technol. B 15 (4), 1313 (1997)
[27] Study on preparation of ceramic-matrix composite of WC-C-0 ultrafine powders
L.H. Cao , D.X. Shi, S.X. Ouyang, B. Guan
Journal of wuhan university of technology-materials science edition 10 (2), 40 (1995)
[28] 并五苯分子在Ag(110)表面成膜过程中的结构研究
王业亮, 时东霞, 季威, 杜世萱, 郭海明, 刘虹雯, 高鸿钧
物理学报53(3), 877 (2004)
[29] 有机纳米信息存储中的结构转变
时东霞, 巴德纯, 庞世瑾, 宋延林, 高鸿钧
物理学报50(5), 990 (2001)
[30] 有机单体3-phenyl-1-ureidonitrile薄膜的超高密度信息存储
时东霞, 宋延林, 张昊旭, 解思深, 庞世瑾, 高鸿钧
物理学报50(2), 361 (2001)



科研活动
科研项目1.国家科技部重大研究计划子课题“CTM存储材料的表征方法和性能研究”430万，2010- 2014，负责人；
2. 国家科技部863项目“用于介观体系电学、电光和力学特性研究的探针测试系统的研制”95万，2008- 2010， 负责人；
3. 国家自然科学基金中德重大国际合作项目子课题“多层次的分子组装体-结构、动态与功能”50万，2008- 2011，负责人；
4. 中科院创新工程重要方向性项目子课题“石墨烯的原型器件与应用探索”75万，2009- 2012，负责人；
5. 国家自然科学基金面上项目“基于新型rotaxane 分子薄膜的超高密度信息存储”35万，2008- 2010， 负责人；
6. 国家自然科学基金面上项目“功能分子-纳米金属粒子的制备及在单电子器件中的应用”28万，2003- 2005， 负责人；
7. 国家自然科学基金重点项目“四探针STM构建纳电子器件结构单元及其电子学特性研究”100万，2005- 2008，副组长。

参与会议

合作情况
项目协作单位

指导学生协助培养研究生数名。计划每年招收硕博联读生、博士生1-2名。