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  • Brown, S.A.; Alkaisi, M.M.; Bittar, A.*; Blaikie, R.J.; Durbin, S.M.; Hall, B.D.*; Hendy, S.C. 2001. Physics and fabrication of nanostructured materials and devices. Handbook / 10th NZ Institute of Physics National Conference, 2001. 10 p.. VUW. Wellington.
  • Clare, J.F.*. 1984. Random strain in crystals induced by defects distributed with the symmetry of the crystal lattice. 8. Annual condensed matter physics meeting ; Pakatoa Island, Auckland ; 8 - 10 Feb 1984. p.PT5.
  • Clare, J.F.*; Devine, S.D. 1984. The determination of intrinsic strain in a crystal from EPR linewidths and the spin-strain coupling tensor. Journal of physics. C, Solid state physics. Vol.17: 2801-2812.
  • Edgar, A.; Tilley, R.; Bittar, A.*; Williams, G.V.M.; Hamlin, J.D.*. 2005. Optical scattering in glass ceramics. AMN -2 International Conference on Advanced Materials and Nanotechnology (2nd : 2005 : Queenstown). poster PG7.3.
  • Edgar, A.; Williams, G.V.M.; Hamlin, J.D.*. 2006. Optical scattering in glass ceramics. Current applied physics. Vol.6 no.3 , p.355-358.
  • Hall, B.D.*. 2000. The role of the surface in determining the physical properties of nanoparticles. Bilateral Research Activities Programme.
  • Hall, B.D.*. 1999. Debye function analysis of structure in diffraction from nanometre-sized particles. Journal of applied physics. Vol.87(4) p.1666-1675.
  • Hall, B.D.*. 1999. Characterisation of gold nanoparticles by synchrotron radiation. Industrial Research Limited.
  • Hall, B.D.*; Flueli, M.; Monot, R.; Borel, J.-P. 1991. Multiply twinned structures in unsupported ultrafine silver particles observed by electron diffraction. Physical review. B, Condensed matter and materials physics. Vol.43 no.5 (Feb. 15), p.3906-3917.
  • Hall, B.D.*; Flueli, M.; Reinhard, D.; Borel, J.-P.; Monot, R. 1991. An Electron diffraction apparatus for studies on small particles in a molecular beam. Review of scientific instruments. Vol.62 no.6 (Jun.), p.1481-1488.
  • Hall, B.D.*; Hyslop, M.; Wurl, A.; Brown, S.A. 2004. Electron diffraction on atomic cluster beams. Gas-phase nano particle synthesis. Granqvist, C.; Kish, L.; Marlow, W. (eds). Book chapter. p 157-185. Kluwer.
  • Hall, B.D.*; Reinhard, D.; Monot, R. 1995. Optimum event rate for a CCD detector. Review of scientific instruments. Vol.66, pp.2268-2671.
  • Hall, B.D.*; Reinhard, D.; Monot, R. 1991. The Choice of optimum exposure time for a simple electron counting system. Review of scientific instruments. Vol.62 no.10 (Oct.), p.2486-2488.
  • Hall, B.D.*; Stoto, T. 1998. Introduction to crystallography : two - dimensional computer simulations. Journal of applied crystallography. Vol.31(3): 31(3): p.477-480.
  • Hall, B.D.*; Zanchet, D.; Ugarte, D. 2000. Estimating nanoparticle size from diffraction measurements. Journal of applied crystallography. Vol.33, p.1335-1341.
  • Hendy, S.C.; Hall, B.D.*. 2001. Molecular dynamics simulations of lead clusters. Annual Condensed Matter and Materials Meeting (25th : 2001 : Marlborough Sounds). 1 p.
  • Hyslop, M.; Wurl, A.; Brown, S.A.; Hall, B.D.*; Monot, R. 2000. Unsupported lead clusters and electron diffraction. European physical journal. D, Atomic, molecular and optical physics. Vol.16, p.233-236.
  • Koo, A; Budde, F.; Ruck, B.J.*; Trodahl, H.J.; Bittar, A.*. 2005. Optoelectronics of highly disordered gallium nitride. AMN-2 International Conference on Advanced Materials and Nanotechnology, 6-11 February, 2005, Queenstown. paper Th A2.3.
  • Reinhard, D.; Berthoud, P.; Hall, B.D.*; Valkealahti, S.; Monot, R. 1998. A Study of unsupported nanometer-sized copper clusters using electron diffraction and molecular dynamics. Physical review. B, Condensed matter and materials physics. Vol.58(8), p.4917-4926.
  • Reinhard, D.; Hall, B.D.*; Berthoud, P.; Valkealahti, S.; Monot, R. 1997. Size dependent icosahedral-to-fcc structure change confirmed in unsupported nanometer-sized copper clusters. Physical review letters. Vol.79,pp.1459-1463.