Publications before 1999

  1. N.Wang, H.Chen & K.H.Kuo, “Two-dimensional quasicrystal with eightfold rotational symmetry” Phys. Rev. Lett. 59(1987)1010.
  2. N.Wang, K.K.Fung & K.H.Kuo, “Symmetry study of the Mn-Si-Al octagonal quasicrystal by convergent beam  electron diffraction” , Appl. Phys. Lett. 52(1988)2120.
  3. N.Wang, H.Chen & K.H.Kuo, “A new 2D quasicrystal with eightfold rotational symmetry”, J. CEM. Soc. 6(1987)27.
  4. N.Wang & K.H.Kuo, “45o Twins with apparent eightfold symmetry in a rapidly solidified Cr-Ni-Si alloy”, Phil. Mag. 60(1989)347.
  5. Z.H. Mai, L.Xu, N.Wang & K.H.Kuo, “Effect of Phason strain on the transition of an Octagonal quasicrystal to a -Mn type structure”, Phys. Rev. B40 (1989) 12183.
  6. N.Wang & K.H.Kuo, “Transformation of the octagonal quasicrystal into the -Mn type crystalline structure”, Phil. Mag. Lett. 60(1990)63.
  7. J.C.Jiang, N.Wang, K.K.Fung & K.H.Kuo, .“Direct observation of domains and discommensurations in Mn-Si-Al octagonal quasicrystal by transmission electron microscopy”, Phys. Rev. Lett. 67(1991)1302.
  8. N.Wang, P.J.Wilbrandt & P.Haasen, “The original of electrically active centers in a near-coincidence 9 grain boundary in germanium”, Phys. Stat. Sol. (b) 166 (1991)347.
  9. N.Wang, F.Zhu & P.Haasen, “Twinned structure of  Fe2B in an annealed Fe73.5CuNb3Si13.5B9 soft magnetic  amorphous alloy”, Phil. Mag. Lett. 64(1991)157.
  10. F.Zhu, N.Wang & P.Haasen, “Ordering of  the -FeSi in a FeCuNbSiB magnet”, Scripta Metallurgica  25(1991)2011.
  11. N.Wang & P.Haasen, “A TEM and DLTS study of a near 25 CdTe bicrystal”, Phys. Stat. Sol. (a)128(1991)37.
  12. N.Wang & P. Haasen, “TEM and DLTS investigations of the electrical activity of 17 and 41 grain boundaries in germanium”, Phys. Stat. Sol. (b)170(1992)403.
  13. N.Wang, Y.Uchida & G.Lehmpfuhl, “A method of direct imaging the reconstruction on Au(111) and Au(100) by  reflection electron microscopy”, Ultramicroscopy 45 (1992)291.
  14. N.Wang, Y.Uchida & G.Lehmpfuhl, “REM study of Au(100) reconstructed surfaces”, Surf. Sci. Lett. 284(1993)L419.
  15. N.Wang, Y.Uchida & G.Lehmpfuhl, “Constrast variation of Au(111) reconstructed surfaces with defocus in REM”, Ultramicroscopy  50(1993)239.
  16. N.Wang, Y.Uchida and G.Lehmpfuhl, “In-situ observation of the phase transition on Au(100) surfaces”, Surf. Sci. Lett. 296(1993)L1.
  17. P. Haasen and N.Wang, “TEM and DLTS Investigations of the Electrical-Activity of Near-Coincidence Grain-Boundaries in Germanium”, Phys. Stat. Sol. (A) 138(1993)649.
  18. Y. Uchida, N.Wang & E. Zeitler, “The alloying effect of Ag on the reconstruction in Au(111) and (100) surfaces observed by REM”, Ultramicroscopy, 55(1994)308.
  19. N.Wang, K.K.Fung, W.Lu & S.Yang, “Structural characterization of carbon nanotubes and nanoparticles by high-resolution electron microscopy”, Chem. Phys. Lett. 229(1994)587.
  20. N.Wang, K.K.Fung and R.F.Xiao, “High resolution electron microscopy study of as-grown, crushed and cleaved C60 crystal”, Surf. Sci. Lett. 328(1995)L539.
  21. N.Wang, K.K.Fung, “Preparation of TEM plan-view and cross-section specimens of ZnSe/GaAs multilayer structures by chemical thinning and argon ion milling”, Ultramicroscopy 60(1995)427. 
  22. Qicai Peng, S.P.Wong, I.H.Wilson, N.Wang and K.K.Fung, “Characterization of buried cobalt silicide layers in Si by MEVVA implantation”, Thin Solid Films, 270(1995)573.
  23. N.Wang, I.K.Sou and K.K.Fung, “Transmission electron microscopy study of stacking faults and the associated partial  dislocation in pseudomorphic epilayers of ZnSe/GaAs(001)”, J. Appl. Phys. 80(1996)5506.
  24. X.N.Jing, N.Wang, A.B.Pakhomov, K.K.Fung and X.Yan, “Effect of annealing on the giant hall effect”, Phys.Rev. B53(1996)14032.
  25. K.K. Fung, N. Wang and I.K. Sou, “Satcking faults originating from diamers in pseudomorphic ZnSe/GaAs epilayer”, J. CEM Soc. 15 (1996)191.
  26. N.J.Goekemeijer, T.Ambrose, C.L.Chien, N.Wang and K.K.Fung, “Long-range exchange coupling between a ferromagnet and an antiferromagnet across a non-magnetic spacer layer” J. Appl. Phys.,  81 (1997) 4999. 
  27. F.Deng, K. Ring, Z.F. Guan, S.S. Lau, W.B. Dubbelday, N. Wang and K.K.Fung, “Structural investigation of self-aligned silicidation on SIMOX”, J. Appl. Phys. 81 (1997)8040-46
  28. N.Wang, I.K. Sou and K.K. Fung, “Transmission electron microscopy study of stacking fault trapezoids and stacking fault tubes in ZnSe/GaAs(001) pseudomorphic epilayers", Phil.Mag. Lett. 76(1997)153.
  29. K.K.Fung, N.Wang and I.K.Sou, “Direct observation of stacking fault tetrahedra in ZnSe/GaAs(001) pseudomorphic epilayers by weak beam dark-field transmission electron microscopy”, Appl. Phys. Lett, 71(1997)1225.
  30. A.B.Pakhomove, X.Yan, N.Wang, X.N.Jing, B.Zhao, K.K.Fung, J.Xhie,T.F.Hung and S.K.Wong, “On the origin of the giant hall effect in magnetic granular metals”, Physica A241(1997)344.
  31. W.Wen, N.Wang, W.Y.Tam and P.Sheng, “Magnetic materials-based electrorheological fluids”, Appl. Phys. Lett. 71(1997)2529.
  32. K.K.Fung and N.Wang, “TEM study of stacking fault and misfit dislocations in ZnSe/Ga As epilayers grown by MBE”, J. Trace & Microprobe Tech., 15(4)(1997)527.
  33. N.Wang, Y.H.Tang, Y.F.Zhang, D.P.Yu, C.S.Lee, I.Bello and S.T.Lee, “Transmission electron microscopy evidence of the defect structure in Si nanowires synthesized by laser ablation”, Chem. Phys. Lett.  283(1998)368.
  34. Y.F.Zhang, Y.H.Zhang, N.Wang, D.P.Yu, C.S.Lee, I.Bello and S.T.Lee, “Silicon nanowires prepared by laser ablation at high temperature”, Appl. Phys. Lett. 72 (1998)1835-37.
  35. C. Zhang, X. Xiao, N. Wang, K. K. Fung, M. M. T. Loy, Z. Chen and J. Zhou, “Defect-enhanced second-harmonic generation in (Sim Gen )p superlattices” , Appl. Phys. Lett. 72(1998)2072-74. 
  36. N. Wang,Y.F.Zhang, Y.H.Tang, C.S.Lee and S.T.Lee, “SiO2-enhanced synthesis of Si nanowires by laser ablation”, Appl.Phys.Lett., 73(1998)3902-04.
  37. N. Wang, Y. H. Tang, Y. F. Zhang, C. S. Lee, and S. T. Lee, “Nucleation and growth of Si nanowires from silicon oxide”, Phys. Rev. B58, (1998)R16024-26.
  38. R.Morton, S.S.Lau, D.B.Poker, P.K.Chu, K.K. Fung and, N.Wang “ Carbon and group II acceptor coimplantation in GaAs”, J.Appl.Phys. 84(1998)4929-34.
  39. N.Wang, K.K. Fung, X.F.Zhang, J.B.Geng, P.K.Wang and S.T.Lee, “Transmission electron microscopy of cross-sections of magnetoresistive read heads”,Phil. Mag A79(1999)107-112. 
  40. W.Wen, N.Wang, H.Ma, W.Y.Tam, C.T.Chen and P.Sheng, “Fields induced martensitic transition mesocrystallites”, Phys.Rev.Lett. 82(1999)4248-51. 
  41. W.Wen, N. Wang, D.W. Zheng, C. Chen and K.N.Tu, “Two- and three-dimensional arrays of magnetic microspheres”, J. Mater.Res.14 (1999)1186-89.
  42. Y.F.Zhang, Y.H.Tang, N.Wang, C.S.Lee, I.Bello and S.T.Lee, “One-dimensional growth mechanism of crystalline nanowires”, J. Cryst. Growth, 197(1999)136-40.
  43. N.Wang, Y.H.Tang, Y.F.Zhang, C.S.Lee ans S.T.Lee, “Si nanowires grown from silicon oxide”, Chem.Phys.Lett., 299(1999)237-42.
  44. Y.F.Zhang, Y.H.Tang, C.S.Lee, N.Wang, I.Bello and S.T.Lee, “Laser ablation behavior of a granulated Si target”, J. Mater. Sci. Lett., 18(1999)123-25.
  45. Y.H.Tang, Y.F.Zhang, N.Wang, C.S.Lee, X.D.Han, I.Bello and S.T.Lee, “Morphology of Si nanowires synthesized by high temperature laser ablation”, J. Appl. Phys., 85(1999)7981-83.
  46. Y.H.Tang, Y.F.Zhang, N.Wang, C.S.Lee, I.Bello and S.T.Lee, “Germanium dioxide whiskers by laser ablation”, Appl.Phys.Lett., 74(1999)3824-26.
  47. X.S.Sun, N.Wang, H.K.Woo, W.J.Zhang, G.Yu, I.Bello, C.S.Lee and S.T.Lee, “The effect of ion bombardment on the nucleation of CVD diamond”, Dia. Relat. Mater. 8(1999)1414-1417.
  48. S.T.Lee, N.Wang, Y.F.Zhang and Y.H.Tang, “Semiconductor nanowires from oxide”, MRS Bulletin 24(1999)36-42.
  49. P.G. Han, H. Wong, M.C. Poon and N. Wang, “Porous Polycrystalline silicon conductivity sensor”, J. Vac. Sci. Technol. A17(1999)1832.
  50. X.T.Zhou, N.Wang, H.L.Lai, H.Y.Peng, I.Bello, C.S.Lee and S.T.Lee, “Beta-SiC nanorods synthesized by hot filament chemical vapor deposition”, Appl. Phys. Lett., 74(1999)3942.
  51. X.S.Sun, W.J.Zhang, N.Wang, I.Bello, C.S.Lee and S.T.Lee, “Formation of nano-crystalline diamond produced by ion beam deposition: the effect of ion bombardment”, J. Non-crystall. Solids, 254(1999)174-179.
  52. Y.F.Zhang, Y.H.Tang, H.Y.Peng, N.Wang C.S.Lee, , I.Bello and S.T.Lee, “Diameter modification of silicon nanowires by ambient gas”, Appl.Phys.Lett. 75(1999)1842.
  53. Y.H.Tang, Y.F.Zhang, H.Y.Peng, N.Wang, C.S.Lee, S.T.Lee, “Si nanowires synthesized by laser ablation of mixed SiC and SiO2 powders”, Chem. Phys. Lett. 314(1999)16-20.
  54. X.S.Sun, N.Wang, W.J.Zhang, H.K.Woo, X.D.Han, I.Bello, C.S.Lee and S.T.Lee, “Synthesis of nano-crystalline diamond by direct beam deposition method”, J. Mater.Res.14(1999)3204-3207.
  55. Y.H.Tang, N.Wang, Y.F.Zhang, C.S.Lee, , I.Bello and S.T.Lee, “Synthesis and characterization of amorphous carbon nanowires”, Appl.Phys.Lett.75 (1999)2921-2923.
  56. S.T.Lee, Y.F.Zhang, N.Wang, Y.H.Tang, , I.Bello, C.S.Lee, and Y.W. Chung, “Semiconductor nanowires from oxides”, J. Mater. Res. 14(1999)4503-4507.
  57. N. Wang, H.B. Lu, W.Z. Chen, T. Zhao, F. Chen, H.Y. Peng, S.T. Lee, and G.Z. Yang, “Morphology and Microstructure of BaTiO3/SrTiO3 Superlattices Grown on SrTiO3 by Laser Molecular Beam Epitaxy”, Appl.Phys.Lett. 75(1999)3464-3466.