Yewu Wang, Ph.D.
Postdoctoral Researcher
Max Planck Institute of Microstructure Physics Weinberg 2, D-06120 Halle, Germany
E-mail: wangyewu@googlemail.com

Phone: +49-345-279-5582940(office)
            

| Profile | Honors and Activities |  Research Interest |  Publications |
| Hobbies | My Wife

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Ph.D. Condensed States Physics (Nanostructured Materials), Institute of Solid State Physics, Chinese Academy of Science, China
Postdoctoral Researcher,  Center for Superfunctional Materials,   POSTECH, South Korea
Postdoctoral Researcher, Max Planck Institute of Microstructure Physics, Weinberg 2, D-06120 Halle, Germany

1999-2002

2002-2005

2005-


Honors and Activities:

2000 The Excellent Ph. D Student
2001 The Excellent Ph. D Student
2002 The Principal Prize of Chinese Academy of Sciences
Invited to review the manuscripts of Journal of the American Chemical Society, Langmuir, Chem. Phys. Lett., Journal of Crystal Growth, Journal of Phys. Chem. B, and Chem. Mater., and to review the Natural Foundation of Israel.

Research Interest:

1. Synthesis of semiconductor and metal nanowires/nanowire arrays;

2. Characterization of these nanowires/nanowire arrays and study of their properties


    (PL and magnetism);

3. Fabrication of nanodevices based on oxide semiconductor nanowires/nanowire arrays.


Publications:

1. Q. Jiang, Y. W. Wang, J. C. Li, Thermodynamics of formation of carbon nanotubes catalyzed by nickel, Applied Surface Science, 152, 156-160 (1999). 

2. Q. Jiang, Z. Zhang, Y. W. Wang, Thermal stability of low dimensional crystals, Materials Science & Engineering A, Structural Materials: Properties, Microstructure and Processing, 286, 139-143 (2000).

3. C. H. Liang, L. D. Zhang, G. W. Meng, Y. W. Wang, and Z. Q. Chu, Preparation and characterization of amorphous SiOx nanowires, J. Non-Crystalline Solids 277, 63-67 (2000). 

4. C. H. Liang, G. W. Meng, W. Chen, Y. W. Wang, L. D. Zhang, Growth and characterization of TiC nanorods activated by nickel nanoparticles, J. Crystal Growth. 220/3, 296-300 (2000). 

5. Y. W. Wang, G. W. Meng, C. H. Liang, G. Z. Wang, and L. D. Zhang, Magnetic properties of order FeXAg1-X alloy nanowire array embedded in anodic alumina membranes, Chem. Phys. Lett. 339, 174-178 (2001). 

6. Y. W. Wang, G. Z. Wang, S. X. Wang, T. Gao, H. Sang and L. D. Zhang, Fabrication and magnetic properties of highly ordered Co16Ag84 alloy nanowire arrays, Applied Physics A, Materials Science & processing, 74, 577-580 (2001). 

7. Y. W. Wang, C. H. Liang, G. Z. Wang, T. Gao, S. X. Wang, J. C. Fan and L. D. Zhang, Preparation and Characterization of Ordered Semiconductor CdO Nanowire Arrays, J. Mater. Sci. Lett. 20, 1687-1689 (2001). 

8. Y. W. Wang, L. D. Zhang, G. Z Wang, X. S. Peng, Z. Q Chu, C. H. Liang, Catalytic Growth of Semiconducting Zinc Oxide Nanowires and Their Photoluminescence Properties, J. Cryst. Growth, Vol. 234/1, 171-175 (2001). 

9. Y. W. Wang, L. D. Zhang, G. W. Meng, C. H. Liang, G. Z Wang and S. H. Sun, Zn Nanobelts: A New Quasi One-dimensional Metal Nanostructure, Chem. Comm., 24, 2632-2633 (2001). 

10. G. Z. Wang, Y. W. Wang, W. Chen, C. H. Liang, G. H. Li, L. D. Zhang, A Facile synthesis route to CdS nanoparticles at room temperature, Materials Letters, Vol. 48, 269-272 (2001). 

11. C. H. Liang, G. W. Meng, G. Z. Wang, Y. W. Wang, L. D. Zhang and S. Y. Zhang, Catalytic synthesis and Photoluminenscene of monoclinic Ga2O3 nanowires, Appl. Phys. Lett. Vol. 78, No. 21, 3032 (2001). 

12. G. Z. Wang, W. Chen, C. H. Liang, Y. W. Wang, G. W. Meng, L. D. Zhang, Preparation and characterization of CdS nanoparticles by ultrasonic irradiation, Inorganic Chemistry Communication 4, 208-210 (2001).

13. T. Gao, G. W. Meng, J. Zhang, Y. W. Wang, C. H. Liang, J. C. Fan, L. D. Zhang, Template synthesis of single-crystal Cu nanowire arrays by electrodeposition, Applied Physics A, Materials Science & processing 73, 251-254 (2001).

14. X. S. Peng, J. Zhang, X. F. Wang, Y. W. Wang, L. X. Zhao, G. W. Meng, L. D. Zhang, Synthesis of highly ordered CdSe nanowire arrays embedded in anodic alumina membrane by electrodeposition in ammonia alkaline solution, Chem. Phys. Lett., 343, 470-474 (2001).

15. J. Zhang, X. S. Peng, X. F. Wang, Y. W. Wang, L. D. Zhang, Micro-Raman investigation of GaN nanowires prepared by direct reaction Ga with NH3, Chem. Phys. Lett., 345, 372-376 (2001).

16. X. S. Peng, G. W. Meng, J. Zhang, L. X. Zhao, X. F. Wang, Y. W. Wang, L. D. Zhang, Electrochemical fabrication of ordered Bi2S3 nanowire arrays, J. Phys. D: Appl. Phys., 34,3224-3228 (2001).

17. J. Zhang, L. D. Zhang, X. S. Peng, X. F. Wang, C. H. Liang, Y. W. Wang, Fabrication and PL of ordered GaN nanowire arrays, J. Chem. Phys. 115, 5714 (2001).

18. X. F. Wang, J. Zhang, H. Z. Shi, Y. W. Wang, X. S. Peng, G. W. Meng, L. D. Zhang and J. Fang, Fabrication and temperature dependence of the resistance of single-crystalline Bi nanowires, J. Appl. Phys., 89, 1 (2001).

19. Y. W. Wang, C. H. Liang, G. W. Meng, X. S. Peng and L. D. Zhang, Synthesis and photoluminescence properties of amorphous SiOx nanowires, J. Mater. Chem., 12, 651-653 (2002). 

20. Y. W. Wang, L. D. Zhang, G. W. Meng, X. S. Peng, Y. X. Jin and J. Zhang, Fabrication and the annealing temperature dependence of magnetic properties for ordered ferromagnetic-nonmagnetic alloy nanowire arrays, J. Phys. Chem. B, 106 (10), 2502-2507 (2002). 

21. Y. W. Wang, G. W. Meng, L. D. Zhang, C. H. Liang and J. Zhang, Catalytic growth of large scale CdS nanowires by physical evaporation, Chem. Mater., 14, 1773-1777 (2002). 

22. Y. W. Wang, L. D. Zhang, C. H. Liang, G. Z. Wang and X. S. Peng, Chem. Phys. Lett., Vol. 357, 314-318 (2002).

23. X. S. Peng, Y. W. Wang, J. Zhang, X. F. Wang, L. X. Zhao, G. W. Meng, L. D. Zhang, Large-scale synthesis of In2O3 nanowires, Appl. Phys. A, 74, 437-439 (2002). 

24. X. S. Peng, G. W. Meng, X. F. Wang, Y. W. Wang, J. Zhang, X. Liu, L. D. Zhang, Synthesis of Oxygen Deficient Indium-Tin-Oxide (ITO) Nanofibers, Chem. Mater. 14 (11): 4490-4493 NOV (2002).

25. Gao T, Meng GW, Y. W. Wang, Sun SH, Zhang L, Electrochemical synthesis of copper nanowires, JOURNAL OF PHYSICS-CONDENSED MATTER14, 355-363 (2002). 

26. X. S. Peng, L. D. Zhang, G. W. Meng, X. F. Wang, Y. W. Wang, C. Z. Wang, G. S. Wu, PL and Infrared Properties of a-Al2O3 Nanowires and Nanobelts, J. Phys. Chem. B, 106 (43): 11163-11167 OCT 31 (2002).

27. X. S. Peng, G. W. Meng, J. Zhang, X. F. Wang, Y. W. Wang, C. Z. Wang, L. D. Zhang, Synthesis and PL of Single-crystalline In2O3 Nanowires, J. Mater. Chem.,12 , 1602-1605 (2002). 

28. X. S. Peng, X. F. Wang, J. Zhang, Y. W. Wang, S. H. Sun, G. S. Wu, L. D. Zhang, G. W. Meng, Blue Light emitting from amorphous SiOx nanopores, Appl. Phys. A, 74, 831-833 (2002). 

29. X. S. Peng, G. W. Meng, X. F. Wang, J. Zhang, L. X. Zhao, Y. W. Wang, L. D. Zhang, Electrochemical fabrication of ordered Ag2S nanowire arrays, Mater. Res. Bull, 2010 (2002).

30. X. S. Peng, X. F. Wang, Y. W. Wang, C. Z. Wang, G. W. Meng, L. D. Zhang,, Novel method synthesis of CdO nanowires, J. Phys. D, 35 (20): L101-L104 OCT (2002).

31. C. Z. Wang, G. W. Meng, Q. Q. Fang, X. S. Peng, Y. W. Wang, Q. Fang, L. D. Zhang, Structure and magnetic property of Ni-Cu alloy nanowires electrodeposited into the pores of anodic alumni membranes, J. Phys. D, 35,738-741 (2002). 

32. Jichun Fan, Tao Gao, Guowen Meng, Yewu Wang, Xiong Liu, Lide Zhang, Synthesis of CdS nanowires by sulfurization, Materials Letters, 57 656 (2002).

33. G. W. Meng, X. S. Peng, Y. W. Wang, C. Z. Wang, X. F. Wang, L. D. Zhang, Synthesis and PL of aligned SiOx nanowire arrays, Appl. Phys. A, 76 (1): 119-121 JAN (2003).

34.  Wang GZ, Geng BY, Huang XM, Wang YW, Li GH, Zhang LD��A convenient ultrasonic irradiation technique for in situ synthesis of zinc sulfide nanocrystallites at room temperature, APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING 77 (7): 933-936, (2003). 

35.  Sun SH, Meng GW, Wang YW, et al., Large-scale synthesis of SnO2 nanobelts, APPL PHYS A-MATER, 76 (2): 287-289 (2003). 

36. Y. W. Wang, Byung Hee Hong, Ju Young Lee and Kwang S. Kim, EELS measurement of antimony nanowires self-assembled from Sb nanoparticles, submitted to Angewandte Chemie International Edition. (2004)

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