Prof. Xiaodong Li
Department of Mechanical Engineering
University of South Carolina, USA
CEC Distinguished Professor
Email: lixiao@cec.sc.edu
Qualifications
1996 Postdoc., Ohio State University, Mechanical Engineering
1993 Ph.D., Harbin Institute of Technology, Materials Science and Engineering
1988 M.Sc., Harbin Institute of Technology, Materials Science and Engineering
1985 B.Sc., Harbin Shipbuilding Engineering Institute, Mechanical Engineering
Publications (Selected)
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Y. C. Yang, G. F. Wang, X. D. Li
(2011) Water molecule induced stiffening in ZnO nanobelts. Nano Letters, 11,
2845-2848
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L. H. Bao, J. F. Zang, X. D. Li (2011)
Flexible Zn2SnO4/MnO2 core/shell
nanocable - carbon microfiber hybrid composites for high-performance
supercapacitor electrodes. Nano Letters, 11, 1215-1220
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J. F. Zang, Z. H. Xu, R. A. Webb, X.
D. Li (2011) Electrical self-healing of mechanically damaged zinc oxide
nanobelts. Nano Letters, 11, 241-244
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Z. H. Xu, Y. C. Yang, P. Huang, X. D.
Li (2010) Determination of interfacial properties of thermal barrier coatings
by shear test and inverse finite element method. Acta Materialia, 58, 5972-5979
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C. H. Lin, H. Ni, X. N. Wang, M.
Chang, Y. J. Chao, J. R. Deka, X. D. Li (2010) In-situ nanomechanical
characterization of single crystalline boron nanowires by buckling. Small, 6,
927-931
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X. D. Li, I. Chasiotis, T. Kitamura
(2010) In situ scanning probe microscopy nanomechanical testing. MRS Bulletin,
35, 361-367
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H. B. Guo, X. C. Xiao, Y. Qi, Z. H.
Xu, X. D. Li (2009) Enhance diamond coating adhesion by oriented interfacial
interlayer microcracking. Journal of Applied Physics, 106, 123514
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X. D. Li, Z. W. Huang (2009) Unveiling
the formation mechanism of pseudo-single crystal aragonite platelets in nacre.
Physical Review Letters, 102, 075502
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Z. H. Xu, M. A. Sutton, X. D. Li
(2008) Mapping nanoscale wear field by combined atomic force microscopy and
digital image correlation techniques. Acta Materialia, 56, 6304–6309
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X. Y. Tao, J. Liu, G. Koley, X. D. Li
(2008) B/SiOx nanonecklace reinforced nanocomposites by unique
mechanical interlocking mechanism. Advanced Materials, 20, 4091-4096.