15. Bartlett, P. & Pusey, P. N. "Freezing of binary-mixtures of hard-sphere colloids". Physica A 194, 415-423 (1993). pdf
14. Bartlett, P., Ottewill, R. H. & Pusey, P. N. Superlattice formation in binary-mixtures of hard-sphere colloids. Phys. Rev. Lett. 68, 3801-3804 (1992). pdf
13. Bartlett, P. & Ottewill, R. H. "A neutron-scattering study of the structure of a bimodal colloidal crystal". J. Chem. Phys. 96, 3306-3318 (1992). pdf
12. Bartlett, P. & Ottewill, R. H. "The study of binary colloidal mixtures by neutron scattering" in Structure and Dynamics of Strongly Interacting Colloids and Supramolecular Aggregates in Solution Vol. 369, Kluwer, Nato Advanced Science Institutes Series, Series C, Mathematical and Physical Sciences eds S. H. Chen, J. S. Huang, & P. Tartaglia) 795-800 (1992).
11. Bartlett, P. & Ottewill, R. H. "Goemetric interactions in binary colloidal dispersions". Langmuir 8, 1919-1925 (1992). pdf
10. Pusey, P. N., Van Megen, W., Underwood, S. M., Bartlett, P. & Ottewill, R. H. "Colloidal fluids, crystals and glasses". Physica A 176, 16-27 (1991). pdf
9. Bartlett, P., Pusey, P. N. & Ottewill, R. H. "Colloidal crystallization under time-averaged zero gravity". Langmuir 7, 213-215 (1991). pdf
The crystal was formed, after 23 hours, in a suspension with
volume fraction 0.507. The image, 8.2 microns away from a wall, depicts the close-packed {111} plane. The larger spheres
(component A) are shown in green and the smaller spheres (B) in red.