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Alder, B.J. and T.E. Wainwright, Phase Transition for a Hard Sphere

System. The Journal of Chemical Physics, 1957. 27(5): p. 1208-1209.

Hoover, W.G. and F.H. Ree, Melting Transition and Communal

Entropy for Hard Spheres. The Journal of Chemical Physics, 1968.

49(8): p. 3609-3617.

Space filling of crystal structures A contribution to the graphical

presentation of geometrical relationships in simple crystal structures, in

Zeitschrift für Kristallographie. 1961. p. 52.

Murray, M.J. and J.V. Sanders, Close-packed structures of spheres of

two different sizes II. The packing densities of likely arrangements.

Philosophical Magazine A, 1980. 42(6): p. 721-740.

Sanders, J.V., Close-packed structures of spheres of two different sizes

I. Observations on natural opal. Philosophical Magazine A, 1980.

42(6): p. 705-720.

Hachisu, S. and S. Yoshimura, Optical demonstration of crystalline

superstructures in binary mixtures of latex globules. Nature, 1980. 283:

p. 188.

Yoshimura, S. and S. Hachisu. Order formation in binary mixtures of

monodisperse latices. in Frontiers in Colloid Science In Memoriam

Professor Dr. Bun-ichi Tamamushi. 1983. Darmstadt: Steinkopff.

Hasaka, M., H. Nakashima, and K. Oki, Structure of the Laves Phase

Observed in Polystyrene Latexes. Transactions of the Japan Institute of

Metals, 1984. 25(2): p. 65-72.

Hunt, N., R. Jardine, and P. Bartlett, Superlattice formation in mixtures

of hard-sphere colloids. Physical Review E: Statistical Physics,

Plasmas, Fluids, and Related Interdisciplinary Topics, 2000. 62: p. 900913.

Bartlett, P., R.H. Ottewill, and P.N. Pusey, Superlattice formation in

binary mixtures of hard-sphere colloids. Physical Review Letters, 1992.

68(25): p. 3801-3804.

Schofield, A., P. Pusey, and P. Radcliffe, Stability of the binary

colloidal crystals AB(2) and AB(13). Vol. 72. 2005. 031407.

Abbas, S. and T.P. Lodge, Superlattice Formation in Binary Mixtures

of Block Copolymer Micelles. Langmuir, 2008. 24(12): p. 6247-6253.

Eldridge, M.D., P.A. Madden, and D. Frenkel, Entropy-driven

formation of a superlattice in a hard-sphere binary mixture. Nature,

1993. 365: p. 35.

Eldridge, M.D., P.A. Madden, and D. Frenkel, A computer simulation

investigation into the stability of the AB2 superlattice in a binary hard

sphere system. Vol. 80. 1993.
















Cottin, X. and P.A. Monson, Substitutionally ordered solid solutions of

hard spheres. The Journal of Chemical Physics, 1995. 102(8): p. 33543360.

Trizac, E., M. D. Eldridge, and P. A. Madden, Stability of the AB

crystal for asymmetric binary hard sphere mixtures. Vol. 90. 1997. 675678.

Denton, A. and N. W. Ashcroft, Weighted-density-functional theory of

nonuniform fluid mixtures: Application to the structure of binary hardsphere mixtures near a hard wall. Vol. 44. 1992. 8242-8248.

Biagini, M., Generalized density functional theory. Journal of Physics:

Condensed Matter, 1996. 8(13): p. 2233.

Roth, R., et al., Fundamental measure theory for hard-sphere mixtures

revisited: the White Bear version. Journal of Physics: Condensed

Matter, 2002. 14(46): p. 12063.

Yu, Y.-X. and J. Wu, Structures of hard-sphere fluids from a modified

fundamental-measure theory. Vol. 117. 2002. 10156-10164.

Hopkins, A.B., et al., Phase Diagram and Structural Diversity of the

Densest Binary Sphere Packings. Physical Review Letters, 2011.

107(12): p. 125501.

B Hopkins, A., F. H Stillinger, and S. Torquato, Densest binary sphere

packings. Vol. 85. 2012. 021130.

Leunissen, M.E., et al., Ionic colloidal crystals of oppositely charged

particles. Nature, 2005. 437: p. 235.

Hynninen, A.P., et al., Prediction and observation of crystal structures

of oppositely charged colloids. Physical review letters, 2006. 96(13): p.


Koos, E. and N. Willenbacher, Capillary Forces in Suspension

Rheology. Science, 2011. 331(6019): p. 897-900.

Schwarz, I., et al., Monte Carlo computer simulations and electron

microscopy of colloidal cluster formation via emulsion droplet

evaporation. The Journal of Chemical Physics, 2011. 135(24): p.


Pham-Van, H., H. Luc-Huy, and T. Nguyen-Minh, Template–assisted

assembly of asymmetric colloidal dumbbells into desirable cluster

structures. Colloid and Polymer Science, 2018. 296(8): p. 1387-1394.

Van, P.H., A. Fortini, and M. Schmidt, Assembly of One-Patch Colloids

into Clusters via Emulsion Droplet Evaporation. Materials, 2017.


Fortini, A., Clustering and gelation of hard spheres induced by the

Pickering effect. Physical Review E, 2012. 85(4): p. 040401.









Smit, D.F.a.B., Understanding Molecular Simulation: From Algorithms

to Applications, ed. F. Daan and S. Berend. 1996: Academic Press, Inc.


Matsumoto, M. and T. Nishimura, Mersenne twister: a 623dimensionally equidistributed uniform pseudo-random number

generator. ACM Trans. Model. Comput. Simul., 1998. 8(1): p. 3-30.

J. Hafner, F.H., W.B. Jensen, J.A. Majewski, K. Mathis, P. Villars and P.

Vogl, Cohesion and Structure, in Cohesion and Structure, J. Hafner, et

al., Editors. 1989, North-Holland. p. ii.

Berthier, L. and W. Kob, The Monte Carlo dynamics of a binary

Lennard-Jones glass-forming mixture. Journal of Physics: Condensed

Matter, 2007. 19(20): p. 205130.

McDonald, J.-P.H.a.I.R., Theory of Simple Liquids, in Theory of Simple

Liquids (Fourth Edition), J.-P. Hansen and I.R. McDonald, Editors.

2013, Academic Press: Oxford. p. i.

Roux, S.L. and V. Petkov. ISAACS – interactive structure analysis of

amorphous and crystalline systems. 2010.

Underwood, S.M., W. van Megen, and P.N. Pusey, Observation of

colloidal crystals with the cesium chloride structure. Physica A:

Statistical Mechanics and its Applications, 1995. 221(4): p. 438-444.

Bartlett, P. and A.I. Campbell, Three-Dimensional Binary Superlattices

of Oppositely Charged Colloids. Physical Review Letters, 2005.

95(12): p. 128302.

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