人物介绍

教育背景

工作经历

所获奖项

国内外学术组织结构任职

出版物概要

人物介绍

吴义宏，教授，博士生导师，新加坡籍华人。1964年生于中国陕西，1991年毕业于京都大学获博士学位, 研究工作为低维宽禁带半导体及其在蓝绿色激光中的应用。中科院宁波材料所客座研究员。从1991年至1996年，在新加坡国立大学，松下新加坡实验室和日本东北大学不同的位置上工作。1996年他重新加入新加坡国立大学，现在是电子和计算机工程系的正教授。从1998年到2003年，他还兼任A*Star数据存储研究所纳米自旋电子学组的负责人。

吴博士一直参与几个不同的物理和工程学科的研究，其中包括光电，光存储，磁数据存储，自旋和纳米材料。他目前的研究兴趣包括纳米磁学，用于数据存储的自旋和二维碳纳米结构。已发表相关学术论文140多篇，并拥有7项美国专利。他是日本应用物理学的海外编辑和纳米科学和纳米技术及扫描探针显微镜的编委。

教育背景

1980年 – 1984年：陕西师范大学物理系，学士

1986年 – 1988年：日本静冈大学，硕士

1988年 – 1991年：日本京都大学，博士

工作经历

2008年～现在：荣获 新加坡国立大学 终身教授1999年～2007年：新加坡国立大学，副教授

1998年～2003年：新加坡数据存储研究所，研究组长

1996年～1998年：新加坡国立大学，讲师、高级讲师

1995年～1996年：日本东北大学，助理教授

1993年～1994年：日本松下公司，高级研究员

1991年～1993年：新加坡国立大学：研究人员

1998年创建Nano Spintronics集团并担任集团经理至2003年。

2001年，在新加坡的数据存储研究院的实验室里偶尔合成了纳米碳墙，成为全球首位合成纳米碳墙的科学家。

所获奖项

UK-Singapore Partners in Science Collaboration Award, 2005　Second Place Winner, Science as Art Competition 2005 MRS Spring Meeting, San Francisco

NUS Young Researcher Award 2003

Outstanding Poster Award, 2002 MRS Fall Meeting,Boston

国内外学术组织结构任职

Overseas Editor: Japanese Journal of Applied Physics

Editorial Board Member: Journal of Nanoscience and Nanotechnology

Editorial Board Member: Journal of Scanning Probe Microscopy

出版物概要

1，Z. H. Ni, H. M. Wang, Y. Ma, J. Kasim, Y. H. Wu, Z. X. Shen, "Tunable stress and controlled thickness modification in graphene by annealing", to appear in ACS Nano.

2，G. Q. Teo, H. M. Wang, Y. H. Wu, Z. B. Guo, J. Zhang, Z. H. Ni and Z. X. Shen, "Visibility study of graphene multilayer structures", to appear in J. Appl. Phys.

3，H. M. Wang, Y. H. Wu, Z. H. Ni, and Z. X. Shen, “Electronic transport and layer engineering in multilayer graphene structures”, Appl. Phys. Lett. 92, 053504 (2008).

4，Y. Y. Wang, Z. H. Ni, Z. X. Shen, H. M. Wang, and Y. H. Wu, “Interference enhancement of Raman signal of graphene”, Appl. Phys. Lett. 92, 043121 (2008).

5，Haomin Wang, Catherine Choonga, Jun Zhang, Kie Leong Teo and Yihong Wu, "Differential conductance fluctuation of curved nanographite sheets in the mesoscopic regime", Solid State Comm. 145, 341-345 (2008).

6，T. Dietl, T. Andrearczyk, A. Lipińska, M. Kiecana, Maureen Tay, and Yihong Wu, "Origin of ferromagnetism in Zn1−xCoxO from magnetization and spin-dependent magnetoresistance measurements ", Phys. Rev. B 76, 155312 (2007).

7，Z. H. Ni, H. M. Wang, J. Kasim, H. M. Fan, T. Yu, Y. H. Wu, Y. P. Feng and Z. X. Shen, "Graphene Thickness Determination Using Reflection and Contrast Spectroscopy", Nano Lett. 7, 2758-2763 (2007).

8，Kebin Li, Yihong Wu, Zaibing Guo, Yuankai Zheng, Guchang Han, Jinjun Qiu, Ping Luo, Lihua An, and Tiejun Zhou, "Exchange Coupling and Its Applications in Magnetic Data Storage", J. Nanosci. Nanotechnol. 7, 13–45 (2007) (Review).

9，Yuankai Zheng, Yihong Wu, Kebin Li, Jinjun Qiu, Guchang Han, Zaibing Guo, Ping Luo, Lihua An, Zhiyong Liu, Li Wang, Seng Ghee Tan, Baoyu Zong, and Bo Liu, "Magnetic Random Access Memory (MRAM)", J. Nanosci. Nanotechnol. 7, 117–137 (2007) (Review)

10，Hongliang Li, Yihong Wu, Zaibing Guo, Ping Luo, and Shijie Wang, "Magnetic and electrical transport properties of Ge1−xMnx thin films",J. Appl. Phys. 100, 103908 (2006).

11，M. Tay, Y. H. Wu, G. C. Han, T. C. Chong, Y. K. Zheng, S. J. Wang, Y. B. Chen and X. Q. Pan, "Ferromagnetism in inhomogeneous Zn1–xCoxO thin films", J. Appl. Phys. 100, 063910 (2006).

12，T. Liu, Y. H. Wu, Z. L. Zhao, Y. K. Zheng and A. O. Adeyeye, "Transport properties and micromagnetic modeling of magnetic nanowires with multiple constrictions", Thin Solid Films, 505 (1-2): 35-40 MAY 18 2006.

13，KB Li, Wu YH, Han GC, Qiu JJ, Zheng YK, Guo ZB, An LH, Luo P, "Electrical and magnetic properties of nano-oxide added spin valves", Thin Solid Films, 505 (1-2): 22-28 MAY 18 2006.

14，G.C. Han, Li KB, Zheng YK, Qiu JJ, Luo P, An LH, Guo ZB, Liu ZY, Wu YH, "Fabrication of sub-50 nm current-perpendicular-to-plane spin valve sensors", Thin Solid Films, 505 (1-2): 41-44 MAY 18 2006.

15，P. Esquinazi, D. Spemann, K. Schindler, R. Höhne, M. Ziese, A. Setzer, K.-H. Han, S. Petriconi, M. Diaconu, H. Schmidt, T. Butz and Y.H. Wu, “Proton irradiation effects and magnetic order in carbon structures”, Solid Films 505, 85-89 (2006).

16，Li HL, Wu YH, Guo ZB, Wang SJ, Teo KL, Veres T, “Effect of antiphase boundaries on electrical transport properties of Fe3O4 nanostructures”, Appl. Phys. Lett. 86, 252507 (2005).

17，Li KB, Qiu JJ, Han GC, Guo ZB, Zheng YK, Wu YH, Li JS, “Effect of capping layer on interlayer coupling in synthetic spin valves”, Phys. Rev. 71, 014436 (2005).

18，Wang L, Qiu JJ, McMahon WJ, Li KB and Wu YH, “Nano-oxide-layer insertion and specular effects in spin valves: Experiment and theory”, Phys. Rev. B 69, 214402 (2004).

19，Wang L, McMahon WJ, Liu B, Wu YH, Chong CT, “Interface or bulk scattering in the semiclassical theory for spin valves”, Phys. Rev. 69 (21): Art. No. 214403 JUN 2004.

20，Wu YH, Yang BJ, Zong BY, Sun H and Feng YP, “Carbon nanowalls and related materials”, Journal of Materials Chemistry 14, 469-477 (2004) (Feature article).

21，Han GC, Wu YH, Tay M, Li KB, and Chong TC, “Epitaxial growth of ferromagnetic Co:TiO2 thin films by co-sputtering”, J. Magn. Magn. Mat. 268, 159-164 (2004).

22，Wu YH, “Nano Spintronics for Data Storage”, Encyclopedia for Nanoscience and Nanotechnology, vol.7, 493-544, American Scientific Publishers, 2003.

23，Wu YH, Shen YT, Liu ZY, Li KB, and Qiu JJ, “Point dipole response from a magnetic force microscopy tip with a synthetic antiferromagnetic coating”, Appl. Phys. Lett. 82, 1748-1750 (2003).

24，Han GC, Zong BY, Luo P, and Wu YH, “Angular dependence of the coercivity and remanence of electrodeposited nano-wire”, J. Appl. Phys. 93, 9202-9207 (2003).

25，Zheng YK, Wu YH, Qiu JJ, Li KB, Guo ZB, Han, GC, An LH, Luo P, You D, Liu ZY, and Shen YT, “A low-switching-current flux-closed magneto-resistive random access memory”, J. Appl. Phys. 93, 7307-7309 (2003).

26，Guo ZB, Zheng YK, Li KB, Liu ZY, Shen YT, and Wu YH, “Observation of a flux closure state in NiFe/IrMn exchange biased rings”, J. Appl. Phys. 93, 7435-7437 (2003).

27，Wu YH, Qiao PW, Chong TC, and Shen ZX, “Carbon nanowalls grown by microwave plasma enhanced chemical vapor deposition”, Adv. Mater. 14, 64-67 (2002).

28，Wu YH, Li KB, Qiu JJ, Guo ZB, and Han GC, “Antiferromagnetically coupled hard/Ru/soft layers and their applications in spin valves”, Appl. Phys. Lett. 80, 4413-4415 (2002).

29，Liu ZY, Dan Y, Qiu JJ, and Wu YH, “Magnetic force microscopy using focused ion beam sharpened tip with deposited antiferro-ferromagnetic multiple layers”, J. Appl. Phys. 91, 8843-8845 (2002).

30，Shen YT, Wu YH, Xie H, Li KB, Qiu JJ, and Guo ZB, “Exchange bias of patterned NiFe/IrMn film”, J. Appl. Phys. 91, 8001-8003 (2002).

31，Wu YH, Yang BJ, Han GC, Zong BY, Ni HQ, Luo P, Chong TC, Low TS, and Shen ZX, “Fabrication of a class of nanostructured materials using carbon nanowalls as the templates”, Adv. Funct. Mater.12, 489-494 (2002).

32，Wu YH, Qiao PW, Qiu JJ, Chong TC, and Low TS, “Magnetic nanostructures grown on vertically aligned carbon nanotube templates”, Nano Letters 2, 161-164 (2002).

33，Shen YT, Wu YH, Chong TC, Xie H, Guo ZB, Li KB, and Qiu JJ, “Asymmetry diffraction magneto-optical phenomenon of NiFe grating”, Appl. Phys. Lett. 79, 2034-2036 (2001).

34，Li KB, Wu YH, Qiu JJ, Han GC, Guo ZB, Xie H, and Chong TC , “Suppression of interlayer coupling and enhancement of magnetoresistance in spin valves with oxide layer”, Appl. Phys. Lett. 79, 3663-3665 (2001).

35，Zheng YK, Wang XY, You D, and Wu YH, “Switch-free read operation design and measurement of magnetic tunnel junction magnetic random access memory arrays”, Appl. Phys. Lett. 79, 2788-2790 (2001).

36，Wu YH, Arai K, and Yao T, “Temperature dependence of the photoluminescence of ZnSe/ZnS quantum-dot structures”, Phys. Rev. B 53, 10485-10488 (1996).

37，Wu YH, “Structure-dependent threshold current-density for CdZnSe-Based II-VI semiconductor-lasers”, IEEE J. Quan. Elect. 30, 1562-1573 (1994).

38，Wu YH, Khoo H, and Kogure T, “Read-only optical disk with superresolution”, Appl. Phys. Lett. 64, 3225-3227 (1994).

39，Kawakami Y, Yamaguchi S, Wu YH, Ichino K, Fujita S, Fujita S, “Optically pumped blue-green laser operation above room-temperature in Zn0.80Cd0.20Se-ZnS0.08Se0.92 multiple quantum-well structures grown by metalorganic molecular-beam epitaxy”, Jpn. J. Appl. Part 2 - Lett.30 (4A): L605-L607 APR 1 1991.

40，Wu YH, Kawakami Y, Fujita S, Fujita S, “Growth and optical-properties of novel wide-band-gap strained-layer single quantum-wells - Zn1-yCdySe/ZnSxSe1-x”, Jpn. J. Appl. Part 2 - Lett.30 (4A): L555-L557 APR 1 1991.