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近期主要论文
1. C.-W. Nan, Yong Huang and G. J. Weng, 2000. Influence of
porosity on the effective magnetostriction of polycrystals;
J. Appl. Phys. 88(1): 339-43.
2. C.-W. Nan and G. J. Weng, 2000. Influence of polarization
orientation on the effective properties of piezoelectric composites;
J. Appl. Phys. 88(1): 416-23.
3. C.-W. Nan and G. J. Weng, 2000. Theoretical approach to
effective electrostriction in inhomogeneous materials; Phys.
Rev. B, 61(1): 258-265.
4. C.-W. Nan and G. J. Weng, 2000. The bounds of electrostrictive
coefficients of relaxor based ferroelectric ceramics; Phil.
Mag. Lett., 80: 445-451.
5. C.-W. Nan, X.-P. Li, and R. Birringer, 2000. An inverse
problem for composites with imperfect interface: determination
of interfacial thermal resistance, thermal conductivity of
constituents and microstructural parameters, J. Am. Ceram.
Soc., 83(4): 848-54.
6. K. Cai, C.-W. Nan, Y. Paderno, and D. S. McLachlan, 2000.
Effect of titanium carbide addition on the thermoelectric
properties of B4C ceramics, Solid State Commun. 115(10): 523-526.
7. C.-W. Nan and G. J. Weng, 1999. Influence of microstructural
features on the effective magnetostriction of composite materials;
Phys. Rev. B, 60(9): 6723-30.
8. C.-W. Nan, et al, 1999. Grain size-dependent electric properties
of nanocrystalline ZnO; J. Appl. Phys., 85(11): 7735.
9. C.-W. Nan,1998. Effective magnetostriction of magnetostrictive
composites; Appl. Phys. Lett., 72(22): 2897.
10. C.-W. Nan and R. Birringer, 1998. Determining the Kapitza
resistance and the thermal conductivity of polycrystals: A
simple model; Phys. Rev. B, 57(14): 8264.
11. C.-W. Nan, R. Birringer, D.R. Clarke, and H. Gleiter,
1997. ffective thermal conductivity of particulate composites
with nterfacial thermal resistance; J. Appl. Phys. 81(10):
6692.
12. C.-W. Nan and D.R. Clarke, 1997. Effective properties
of ferroelectric and/or ferromagnetic composites: A unified
approach and its application; J. Am. Ceram. Soc. 80(6): 1333.
13. C.-W. Nan and D.R. Clarke, 1997. Modeling the elastic/plastic
deformation of Al/Al2O3 particulate composites; J. Am. Ceram.
Soc. 80(1): 237.
14. C.-W. Nan and D.R. Clarke, 1996. Effect of variations
in grain size and grain boundary barrier heights on current-voltage
characteristics of ZnO; J. Am. Ceram. Soc. 79(12): 3185.
15. C.-W. Nan and D.R. Clarke, 1996. The influence of particle
size and particle fracture on the elastic/plastic deformation
of metal-matrix composites; Acta mater. 44(9): 3801.
16. C.-W. Nan and D.R. Clarke, 1996. Piezoelectric moduli
of piezoelectric ceramics; J. Am. Ceram. Soc. 79(10): 2563.
Ce-Wen Nan (C. W. Nan)
Cheung-Kong Professor of Materials Science
Department of Materials Science & Engineering
Tsinghua University
Beijing 100084
China
Phone: (+86) 10-6277 3587
Fax: (+86) 10-6277 1160
Email: cwnan@tsinghua.edu.cn
Brief CV
BA(1982) and MA (1985) in Materials Science and Engineering,
East China University of Science and Technology, Shanghai.
PhD (1992) in Materials Science and Engineering, Wuhan University
of Technology. Lecturer, Associate Professor, and Professor,
Wuhan University of Technology (1985-1999). Cheung-Kong Professor
of Materials Science, Tsinghua University (1999- ). Visiting
Appointments at University of New Mexico, USA (1990-91); University
of California at Santa Barbara, USA (1994-95); and Rutgers
University, USA (1999). Humboldt Fellow at Universitaet des
Saarlandes, Germany (1996-1997).
Honors
* ISI? Citation Classic Award, Institute for Scientific Information,
USA, 2000
* Edward C. Henry Award, Electronics Division of The American
Ceramic Society, 1999
* Alexander von Humboldt Fellowship, Germany, 1994
* Outstanding Young Specialist Award in Hubei Province, China,
1993
* China Science and Technology Award for Excellent Young Scientists,
1992
Professional Activities
* Member of editorial board of Journal of Tsinghua University;
2000-
* Invited Referee for Physical Review B and Physical Review
Letters; 1995-
* Invited Referee for J. Applied Physics and Applied Physical
Letter; 1997-
* Member of editorial board of Journal of Chinese Ceramic
Society; 1993-
* Member of editorial board of Journal of Wuhan University
of Technology; 1996-
* Associate member, International Centre for Materials Physics,
Academica Sinica,
Shenyang, China; 1994-1998
Recent Publications
17. C.-W. Nan, Yong Huang and G. J. Weng, 2000. Influence
of porosity on the effective magnetostriction of polycrystals;
J. Appl. Phys. 88(1): 339-43.
18. C.-W. Nan and G. J. Weng, 2000. Influence of polarization
orientation on the effective properties of piezoelectric composites;
J. Appl. Phys. 88(1): 416-23.
19. C.-W. Nan and G. J. Weng, 2000. Theoretical approach to
effective electrostriction in inhomogeneous materials; Phys.
Rev. B, 61(1): 258-265.
20. C.-W. Nan and G. J. Weng, 2000. The bounds of electrostrictive
coefficients of relaxor based ferroelectric ceramics; Phil.
Mag. Lett., 80: 445-451.
21. C.-W. Nan, X.-P. Li, and R. Birringer, 2000. An inverse
problem for composites with imperfect interface: determination
of interfacial thermal resistance, thermal conductivity of
constituents and microstructural parameters, J. Am. Ceram.
Soc., 83(4): 848-54.
22. K. Cai, C.-W. Nan, Y. Paderno, and D. S. McLachlan, 2000.
Effect of titanium carbide addition on the thermoelectric
properties of B4C ceramics, Solid State Commun. 115(10): 523-526.
23. C.-W. Nan and G. J. Weng, 1999. Influence of microstructural
features on the effective magnetostriction of composite materials;
Phys. Rev. B, 60(9): 6723-30.
24. C.-W. Nan, et al, 1999. Grain size-dependent electric
properties of nanocrystalline ZnO; J. Appl. Phys., 85(11):
7735.
25. C.-W. Nan,1998. Effective magnetostriction of magnetostrictive
composites; Appl. Phys. Lett., 72(22): 2897.
26. C.-W. Nan and R. Birringer, 1998. Determining the Kapitza
resistance and the thermal conductivity of polycrystals: A
simple model; Phys. Rev. B, 57(14): 8264.
27. C.-W. Nan, R. Birringer, D.R. Clarke, and H. Gleiter,
1997. ffective thermal conductivity of particulate composites
with interfacial thermal resistance; J. Appl. Phys. 81(10):
6692.
28. C.-W. Nan and D.R. Clarke, 1997. Effective properties
of ferroelectric and/or ferromagnetic composites: A unified
approach and its application; J. Am. Ceram. Soc. 80(6): 1333.
29. C.-W. Nan and D.R. Clarke, 1997. Modeling the elastic/plastic
deformation of Al/Al2O3 particulate composites; J. Am. Ceram.
Soc. 80(1): 237.
30. C.-W. Nan and D.R. Clarke, 1996. Effect of variations
in grain size and grain boundary barrier heights on current-voltage
characteristics of ZnO; J. Am. Ceram. Soc. 79(12): 3185.
31. C.-W. Nan and D.R. Clarke, 1996. The influence of particle
size and particle fracture on the elastic/plastic deformation
of metal-matrix composites; Acta mater. 44(9): 3801.
32. C.-W. Nan and D.R. Clarke, 1996. Piezoelectric moduli
of piezoelectric ceramics; J. Am. Ceram. Soc. 79(10): 2563.
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