A binary mixture of oppositely charged colloidal particles can self-assemble into either a substitutionally ordered or substitutionally disordered crystalline phase depending on the nature and strength of interactions among the particles. An earlier study had mapped out favorable inter-particle interactions for the formation of substitutionally ordered crystalline phases from a fluid phase using Monte Carlo molecular simulations along with the Gibbs-Duhem integration technique. In this paper, those studies are extended to determine the effect of fluid phase composition on formation of substitutionally ordered solid phases.

1.
G.
Pavaskar
,
S.
Sharma
, and
S. N.
Punnathanam
,
J. Chem. Phys.
136
,
134506
(
2012
).
2.
G.
Pavaskar
and
S. N.
Punnathanam
,
J. Chem. Phys.
138
,
174504
(
2013
).
3.
P.
Bartlett
and
A. I.
Campbell
,
Phys. Rev. Lett.
95
,
128302
(
2005
).
4.
M. E.
Leunissen
,
C. G.
Christova
,
A. P.
Hynninen
,
C. P.
Royall
,
A. I.
Campbell
,
A.
Imhof
,
M.
Dijkstra
,
R.
van Roij
, and
A.
van Blaaderen
,
Nature
437
,
235
(
2005
).
5.
D. A.
Kofke
,
J. Chem. Phys.
98
,
4149
(
1993
).
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