2002
1. Effect of cupped cathode on microstructure of carbon nanotubeds in arc discharge
D. S. Tang, S. S. Xie, W. Y. Zhou, Z. Q. Liu, L. J. Ci, X. Q. Yan, H. J. Yuan, Z. P. Zhou, Y. X. Liang, D. F. Liu, W. Liu, Carbon, 40 (2002): 1597.
2. Double wall carbon nanotubes promoted by sulfur in a floating iron catalyst CVD system
L. J. Ci, Z. L. Rao, Z. P. Zhou, D. S. Tang, X. Q. Yan, Y. X. Liang, D. F. Liu, H. J. Yuan, W. Y. Zhou, G. Wang, W. Liu, S. S. Xie, Chem. Phys. Lett., 359 (2002): 63.
3. Morphologies and microstructures of Carbon nanotubes prepared by self-sustained arc discharging
D. S. Tang, W. Y. Zhou, L. J. Ci, X. Q. Yan, H. J. Yuan, Z. P. Zhou, Y. X. Liang, D. F. Liu, W. Liu, Chin. Phys., 11 (2002): 496.
2003
4. Double wall cadbon nanotubes with an inner diameter of 0.4 nm
L. J. Ci, Z. P. Zhou, D. S. Tang, X. Q. Yan, Y. X. Liang, D. F. Liu, H. J. Yuan, W. Y. Zhou, G. Wang, S. S. Xie, Chem. Vap. Deposit., 9 (2003): 119.
5. Controlled growth of double wall carbon nanotubes in floating catalytic system
Z. P. Zhou, L. J. Ci, X. H. Chen, D. S. Tang, X. Q. Yan, D. F. Liu, Y. X. Liang, H. J. Yuan, W. Y. Zhou, G. Wang, S. S. Xie, Carbon, 41 (2003): 337.
6. Synthesis and strong blue-green emission properties of ZnO nanowires
D. F. Liu, D. S. Tang, L. J. Ci, X. Q. Yan, Y. X. Liang, Z. P. Zhou, H. J. Yuan, W. Y. Zhou, G. Wang, Chin. Phys. Lett., 20 (2003) 928.
7. ????????????-?????
?????????????? (2003) 4??5?: 2.
2004
8. Electronic transport through individual ZnO nanowires
Q. H. Li, Q. Wan, Y. X. Liang, T. H. Wang, Appl. Phys. Lett., 84 (2004): 4556.
9. Field-emission from long SnO2 nanobelt arrys
Y. J. Chen, Q. H. Li, Y. X. Liang, T. H. Wang, Q. Zhao, D. P. Yu, Appl. Phys. Lett., 85 (2004): 5682.
10. Oxygen sensing characteristics of individual ZnO nanowire transistors
Q. H. Li, Y. X. Liang, Q. Wan, T. H. Wang, Appl. Phys. Lett., 85 (2004): 6389.
(Citation times 72)
2005
11. Electric-field-aligned vertical growth and field emission properties of In2O3 nanowires
S. Q. Li, Y. X. Liang, T. H. Wang, Appl. Phys. Lett., 87 (2005): 143104.
(Citation 23)
2006
12. Nonlinear characteristics of the Fowler-Nordheim plot for field emission from In2O3 nanowires grown on InAs substrate
S. Q. Li, Y. X. Liang, T. H. Wang, Appl. Phys. Lett., 88 (2006): 053107.
(Citation times 12)
13. In2O3 nanowires grown from Au/In film on glass
S. Q. Li, Y. X. Liang, C. Wang, X. Q. Fu, T. H. Wang, Appl. Phys. Lett., 88 (2006): 163111.
(Citation times 5)
14. Synthesis vertlcally electric-field-aligned In2O3 nanowires
S. Q. Li, Y. X. Liang, T. L. Guo, Z. X. Lin, T. H. Wang, Mat. Lett., 60 (2006): 1492.
(Citation times 1)
2008
15. Development of ultra-low noise HEMTs for cryoelectronics at 4.2 K
E. Gremion, A. Cavanna, Y.-X. Liang, U. Gennser, M.-C ChengM. Fesquet, G. Chardin, A. Benoit, Y. Jin, J. Low Temp. Phys., 151 (2008):971.
