44. Greinert, N., Wood, T. & Bartlett, P. "Measurement of effective temperatures in an aging colloidal glass". Phys. Rev. Lett. 97, 265702, (2006). pdf
43. Sanchez, R. & Bartlett, P. "Equilibrium cluster formation and gelation". J. Phys.-Condes. Matter 17, S3551-S3556, (2005). pdf
42. Campbell, A. I., Anderson, V. J., van Duijneveldt, J. S. & Bartlett, P. "Dynamical arrest in attractive colloids: The effect of long-range repulsion". Phys. Rev. Lett. 94, 208301, (2005). pdf
41. Bartlett, P. & Campbell, A. I. "Three-dimensional binary superlattices of oppositely charged colloids". Phys. Rev. Lett. 95,128302, (2005). pdf
40. Bartlett, P. Colloids and interfaces with surfactants and polymers - an introduction. Wiley-VCH, 2004, 296 pp; ISBN: 0-470-84142-7 (hardcover); ISBN: 0-470-84143-5 (paperback);. Applied Organometallic Chemistry 19, 408-408 (2005).
39. Bartlett, P. in "Optical manipulation" in Colloid Science: Principles, methods and applications (ed T. Cosgrove) 255-265 (Blackwell, 2005). pdf
38. Starrs, L. & Bartlett, P. "Colloidal dynamics in polymer solutions: Optical two-point microrheology measurements". Faraday Discuss. 123, 323-334, (2003). 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.