Apr. 96 – July 99    Ph.D. Australian National University (Canberra, Australia).
Sept. 83 - Dec. 85    M.S., Northeast University (Shenyang, China)
Sept. 79 - July 83    B.S., Northeast University (Shenyang, China)

1. Zhu X. F.，Lu Gaoqing, Zheng Lansun, New challenge to nanoscience and nanotechnology: novel nanosize and nanotime effects (Invited Review), Int. J. Nanotechnology (2007), as invited
2. Zhu X. F.，Wang Z. G.，Nanoinstabilities as revealed by shrinkage of nanocavities in silicon during irradiation (Invited Review), Int. J. Nanotechnology, 3, 491-515 (2006).
3. Zhu X. F., Meng T., Li L. X., Wang Z. G., Zhou H. H., Shen Y. T., Observation and novel explanation of instability of single wall carbon nanotube, Proc. 1st IEEE –International Conf. On Nano/Micro Eng and Molecular Systems (2006), 463-466；IEEE NTC Review of Advances in Micro, Nano,and Molecular Systems (2006), in press (EI, SCI Indexed).
4. Zhu X. F., Kinetics of solid phase epitaxy of amorphous Si induced by self-ion implantation into Si with nanocavities, Proc. 1st IEEE –International Conf. On Nano/Micro Eng and Molecular Systems(2006), 471-474； IEEE NTC Review of Advances in Micro, Nano,and Molecular Systems (2006), in press (EI, SCI Indexed).
5. Zhu X. F.，Shrinkage of nanocavities in silicon during electron beam irradiation, J. Appl. Phys. (2006), 100, 034304-1-4.
6. Zhu X. F.，Mool G. Gupta, Lu G. Q.，Advanced fabrication of single wall carbon nanotubes by laser ablation with reduced number of parameters，Proc. 1st IEEE –International Conf. On Nano/Micro Eng and Molecular Systems (2006), 451-455；IEEE NTC Review of Advances in Micro, Nano,and Molecular Systems (2006), in press (EI, SCI Indexed).
7. Zhu X. F., Wang Z. G., Evidence of energetic beam-induced soft mode and lattice instability: a novel nanotime effect，Chinese Phys. Lett. (2005), 22, 737-740.
8. Zhu X. F., Wang Z. G.，Nanocavity shrinkage and preferential amorphisation during ion irradiation into silicon，Chinese Phys. Lett. (2005),22, 657-660.
9．Meng T., Zhu X. F., Wang Z. G., Related experiments and their analysis for self-assembly growth of GaN quantum dots via MOCVD (Invited Review), Rare Metal Mater. Eng. (2005), 34, 1849-1852
10. Li S. H., Zhu X. F., Samuk P., Tang F.,Wang G. C., Zhao Y .P., A new method to synthesize SiOx nanowires at low temperature, J. Phys. Chem. B (2004),108,17032-17041.
11. Zhu X. F., Evidence of antisymmetry relation between a nanocavity and a nanoparticle: a novel nanosize effect, J. Phys.: C M (2003), 15, L253-L261.
12. Zhu X. F., et al, Direct observation of irradiation-induced nanocavity shrinkage in Si, Appl. Phys. Lett. (2001), 79, 3416-3418.
13. Williams J. S., Ridgway M.C., Conway M. J., Wong-Leung J., Zhu X. F.，Interaction of defects and metals with nanocavities in silicon, Nucl. Instrum. Meth. B (2001), 178, 33-43.
14. Williams J. S., Zhu X. F., Preferential amorphization and defect annihilation at nanocavities in silicon during ion Irradiation, Appl. Phys. Lett.(2000), 77, 4280-4282.
15. Williams J. S., Conway M. J., Zhu X. F., et al., The formation and stability of vacancy clusters and voids in silicon following energetic ion bombardment, Mat. Res. Soc. Symp. Proc. (2000), 555, 38.
16. Zhu X. F., Williams J. S., McCallum J. C., New non equilibrium structures created by high dose self-ion implantation into silicon, Nucl. Instrum. Meth. B (1999), 148, 268-272.
17. Zhu X. F., Zhang H. F., Williams J. S., Wang R. P., Zhang L. D., Wu X. J., Low-temperature thermopower in nanostructured silver, Appl. Phys. Lett. (1999), 75, 136-138.
18. Zhu X. F., Williams J. S., Llewellyn D. J., McCallum J. C., The instability of nanocavities in amorphous silicon, Appl. Phys. Lett.(1999), 74,2313-2315.
19. Zhu X. F., Williams J. S., McCallum J. C., Instability of nanocavities in disordered and amorphous Si under ion irradiation, Mat. Res. Soc. Symp. Proc. (1999), 540,127.
20. Zhu X. F., Williams J. S., McCallum J. C., Observation of novel porous structures in ultra-high-dose self-implanted silicon, Appl. Phys. Lett. (1998), 73, 1181-1183.