The phase behavior and the fluid structure of coarse-grain models for alcohols are studied by means of reference interaction site model (RISM) theory and Monte Carlo simulations. Specifically, we model ethanol and 1-propanol as linear rigid chains constituted by three (trimers) and four (tetramers) partially fused spheres, respectively. Thermodynamic properties of these models are examined in the RISM context, by employing closed formulæ for the calculation of free energy and pressure. Gas-liquid coexistence curves for trimers and tetramers are reported and compared with already existing data for a dimer model of methanol. Critical temperatures slightly increase with the number of CH2 groups in the chain, while critical pressures and densities decrease. Such a behavior qualitatively reproduces the trend observed in experiments on methanol, ethanol, and 1-propanol and suggests that our coarse-grain models, despite their simplicity, can reproduce the essential features of the phase behavior of such alcohols. The fluid structure of these models is investigated by computing radial distribution function gij(r) and static structure factor Sij(k); the latter shows the presence of a low−k peak at intermediate-high packing fractions and low temperatures, suggesting the presence of aggregates for both trimers and tetramers.

1.
A. V.
Talyzin
,
T.
Hausmaninger
,
S. J.
You
, and
T.
Szabo
,
Nanoscale
6
,
272
(
2014
).
2.
Y.
Wang
and
G. W.
Padua
,
Langmuir
26
,
12897
(
2010
).
3.
I.
Juurinen
 et al.,
Phys. Rev. Lett.
107
,
197401
(
2011
).
4.
M.
Heger
,
T.
Scharge
, and
M. A.
Suhm
,
Phys. Chem. Chem. Phys.
15
,
16065
(
2013
).
5.
M.
Nielsen
,
E.
Alberico
,
W.
Baumann
,
H. J.
Drexler
,
H.
Junge
,
S.
Gladiali
, and
M.
Beller
,
Nature
495
,
85
(
2013
).
7.
V.
Najdanovic-Visak
 et al.,
Phys. Chem. Chem. Phys.
4
,
1701
(
2002
).
8.
S.
Lucas
,
D.
Ferry
,
B.
Demirdjian
, and
J.
Suzanne
,
J. Phys. Chem. B
109
,
18103
(
2005
).
9.
J.
Lehtola
,
M.
Hakala
, and
K.
Hamalainen
,
J. Phys. Chem. B
114
,
6426
(
2010
).
10.
P. G.
Kusalik
,
A. P.
Lyubartsev
,
D. L.
Bergman
, and
A.
Laaksonen
,
J. Phys. Chem. B
104
,
9526
(
2000
).
11.
Y. P.
Zeng
,
C. F.
Wang
,
X. B.
Zhang
, and
S. G.
Yu
,
Chem. Phys.
433
,
89
(
2014
).
12.
M. J.
McGrath
,
I. F. W.
Kuo
, and
J. I.
Siepmann
,
Phys. Chem. Chem. Phys.
13
,
19943
(
2011
).
13.
S.
Patel
and
C. L.
Brooks
,
J. Chem. Phys.
123
,
164502
(
2005
).
14.
W. L.
Jorgensen
,
J. Am. Chem. Soc.
103
,
335
(
1981
).
15.
W. L.
Jorgensen
,
J. Phys. Chem.
90
,
1276
(
1986
).
16.
W. L.
Jorgensen
,
J. Am. Chem. Soc.
118
,
11225
(
1996
).
17.
B.
Kvamme
,
Fluid Phase Equilib.
101
,
157
(
1994
).
18.
J.
Kolafa
and
I.
Nezbeda
,
Mol. Phys.
61
,
161
(
1987
).
19.
L.
Vlcek
and
I.
Nezbeda
,
Mol. Phys.
101
,
2987
(
2003
).
20.
L.
Vlcek
and
I.
Nezbeda
,
Mol. Phys.
102
,
485
(
2004
).
21.
L.
Vlcek
and
I.
Nezbeda
,
Mol. Phys.
102
,
771
(
2004
).
22.
E. A.
Jagla
,
J. Chem. Phys.
111
,
8980
(
1999
).
23.
Z.
Su
,
S. V.
Buldyrev
,
P. G.
Debenedetti
,
P. J.
Rossky
, and
H. E.
Stanley
,
J. Chem. Phys.
136
,
044511
(
2012
).
24.
M.
Huš
,
G.
Munaò
, and
T.
Urbic
,
J. Chem. Phys.
141
,
164505
(
2014
).
25.
M.
Hus
and
T.
Urbic
,
Phys. Rev. E
90
,
062306
(
2014
).
26.
G.
Franzese
,
J. Mol. Liq.
136
,
267
273
(
2007
).
27.
J. P.
Hansen
and
I. R.
McDonald
,
Theory of Simple Liquids
, 3rd ed. (
Academic Press
,
New York
,
2006
).
28.
D.
Chandler
and
H. C.
Andersen
,
J. Chem. Phys.
57
,
1930
1937
(
1972
).
29.
L. J.
Lowden
and
D.
Chandler
,
J. Chem. Phys.
61
,
5228
5241
(
1974
).
30.
L.
Lue
and
D.
Blankschtein
,
J. Chem. Phys.
102
,
5427
5437
(
1995
).
31.
A.
Kovalenko
and
F.
Hirata
,
J. Theor. Comput. Chem.
1
,
381
406
(
2002
).
32.
B. M.
Pettitt
and
P. J.
Rossky
,
J. Chem. Phys.
78
,
7296
7299
(
1983
).
33.
B.
Kvamme
,
Phys. Chem. Chem. Phys.
4
,
942
948
(
2002
).
34.
D.
Costa
,
G.
Munaò
,
F.
Saija
, and
C.
Caccamo
,
J. Chem. Phys.
127
,
224501
(
2007
).
35.
B.
Kezic
and
A.
Perera
,
J. Chem. Phys.
133
,
234104
(
2011
).
36.
M.
Kinoshita
,
Y.
Okamoto
, and
F.
Hirata
,
J. Am. Chem. Soc.
122
,
2773
(
2000
).
37.
G.
Munaò
,
D.
Costa
,
F.
Saija
, and
C.
Caccamo
,
J. Chem. Phys.
132
,
084506
(
2010
).
38.
F.
Hirata
,
Molecular Theory of Solvation
(
Kluwer Academic
,
Dordrecht
,
2003
).
39.
A.
Kovalenko
and
F.
Hirata
,
J. Chem. Phys.
110
,
10095
(
1999
).
40.
A.
Kovalenko
and
F.
Hirata
,
Chem. Phys. Lett.
349
,
496
(
2001
).
41.
T.
Morita
and
K.
Hiroike
,
Prog. Theor. Phys.
23
,
1003
(
1960
).
42.
S. J.
Singer
and
D.
Chandler
,
Mol. Phys.
55
,
621
625
(
1985
).
43.
M.
Huš
and
T.
Urbic
,
J. Chem. Phys.
139
,
114504
(
2013
).
44.
M.
Huš
and
T.
Urbic
,
J. Chem. Phys.
140
,
144904
(
2014
).
45.
K.
Yoshida
,
T.
Yamaguchi
,
A.
Kovalenko
, and
F.
Hirata
,
J. Phys. Chem. B
106
,
5042
(
2002
).
46.
D.
Frenkel
and
B.
Smit
,
Understanding Molecular Simulations
(
Academic
,
New York
,
1996
).
47.
C. J.
Benmore
and
Y. L.
Loh
,
J. Chem. Phys.
112
,
5877
(
2000
).
48.
R.
Townsend
,
J. Chem. Thermodyn.
7
,
185
(
1975
).
49.
J. M.
Smith
,
J. Chem. Eng. Data
5
,
130
(
1960
).
50.
J.
Kang
,
K.
Yoo
,
H.
Kim
,
J.
Lee
,
D.
Yang
, and
C.
Lee
,
Int. J. Thermophys.
22
,
487
(
2001
).
51.
Y.
Liu
,
L.
Porcar
,
J.
Chen
,
W.-R.
Chen
,
P.
Falus
,
A.
Faraone
,
E.
Fratini
,
K.
Hong
, and
P.
Baglioni
,
J. Phys. Chem. B
115
,
7238
(
2011
).
52.
P.
Falus
,
L.
Porcar
,
E.
Fratini
,
W.-R.
Chen
,
A.
Faraone
,
K.
Hong
,
P.
Baglioni
, and
Y.
Liu
,
J. Phys.: Condens. Matter
24
,
064114
(
2012
).
53.
A.
Stradner
,
H.
Sedgwick
,
F.
Cardinaux
,
W. C. K.
Poon
,
S. U.
Egelhaaf
, and
P.
Schurtenberger
,
Nature
432
,
492
(
2004
).
54.
Y.
Liu
,
E.
Fratini
,
P.
Baglioni
,
W.-R.
Chen
, and
S.-H.
Chen
,
Phys. Rev. Lett.
95
,
118102
(
2005
).
55.
F.
Cardinaux
,
A.
Stradner
,
P.
Schurtenberger
,
F.
Sciortino
, and
E.
Zaccarelli
,
Europhys. Lett.
77
,
48004
(
2007
).
56.
J. M.
Bomont
,
J. L.
Bretonnet
, and
D.
Costa
,
J. Chem. Phys.
132
,
184508
(
2010
).
57.
G.
Munaò
,
D.
Costa
,
A.
Giacometti
,
C.
Caccamo
, and
F.
Sciortino
,
Phys. Chem. Chem. Phys.
15
,
20590
(
2013
).
58.
G.
Munaò
,
P.
O’Toole
,
T. S.
Hudson
,
D.
Costa
,
C.
Caccamo
,
F.
Sciortino
, and
A.
Giacometti
,
J. Phys.: Condens. Matter
27
,
234101
(
2015
).
You do not currently have access to this content.