The thermodynamic property data for solid phase I of benzene are reviewed and utilized to develop a new fundamental equation of state (EOS) based on Helmholtz energy, following the methodology used for solid phase I of CO2 by Trusler [J. Phys. Chem. Ref. Data 40, 043105 (2011)]. With temperature and molar volume as independent variables, the EOS is able to calculate all thermodynamic properties of solid benzene at temperatures up to 470 K and at pressures up to 1800 MPa. The model is constructed using the quasi-harmonic approximation, incorporating a Debye oscillator distribution for the vibrons, four discrete modes for the librons, and a further 30 distinct modes for the internal vibrations of the benzene molecule. An anharmonic term is used to account for inevitable deviations from the quasi-harmonic model, which are particularly important near the triple point. The new EOS is able to describe the available experimental data to a level comparable with the likely experimental uncertainties. The estimated relative standard uncertainties of the EOS are 0.2% and 1.5% for molar volume on the sublimation curve and in the compressed solid region, respectively; 8%–1% for isobaric heat capacity on the sublimation curve between 4 K and 278 K; 4% for thermal expansivity; 1% for isentropic bulk modulus; 1% for enthalpy of sublimation and melting; and 3% and 4% for the computed sublimation and melting pressures, respectively. The EOS behaves in a physically reasonable manner at temperatures approaching absolute zero and also at very high pressures.

1.
Y. A.
Sataty
,
A.
Ron
, and
M.
Brith
,
Chem. Phys. Lett.
23
,
500
(
1973
).
2.
M.
Podsiadło
,
K.
Jakóbek
, and
A.
Katrusiak
,
CrystEngComm
12
,
2561
(
2010
).
3.
F. H.
Ree
,
J. Chem. Phys.
70
,
974
(
1979
).
4.
L.
Ciabini
,
M.
Santoro
,
R.
Bini
, and
V.
Schettino
,
J. Chem. Phys.
115
,
3742
(
2001
).
5.
L.
Morávková
,
Z.
Wagner
, and
J.
Linek
,
Fluid Phase Equilib.
209
,
81
(
2003
).
6.
R. D.
Chirico
and
W. V.
Steele
,
Ind. Eng. Chem. Res.
33
,
157
(
1994
).
7.
R.
Engelke
,
P. J.
Hay
,
D. A.
Kleier
, and
W. R.
Wadt
,
J. Am. Chem. Soc.
106
,
5439
(
1984
).
8.
R.
Pucci
and
N. H.
March
,
J. Chem. Phys.
74
,
1373
(
1981
).
9.
M.
Thol
,
E. W.
Lemmon
, and
R.
Span
,
High Temp. High Pressure
41
,
81
(
2012
).
10.
J.
Akella
and
G. C.
Kennedy
,
J. Chem. Phys.
55
,
793
(
1971
).
11.
F.
Cansell
,
D.
Fabre
, and
J. P.
Petitet
,
J. Chem. Phys.
99
,
7300
(
1993
).
12.
L.
Ciabini
,
F. A.
Gorelli
,
M.
Santoro
,
R.
Bini
,
V.
Schettino
, and
M.
Mezouar
,
Phys. Rev. B
72
,
094108
(
2005
).
13.
A. D.
Chanyshev
,
K. D.
Litasov
,
S. V.
Rashchenko
,
A.
Sano-Furukawa
,
H.
Kagi
,
T.
Hattori
,
A. F.
Shatskiy
,
A. M.
Dymshits
,
I. S.
Sharygin
, and
Y.
Higo
,
Cryst. Growth Des.
18
,
3016
(
2018
).
14.
C. J.
Baker
,
J. H.
Oakley
,
D.
Rowland
,
T. J.
Hughes
,
Z. M.
Aman
, and
E. F.
May
,
Energy Fuels
32
,
255
(
2018
).
15.
A.
Siahvashi
,
S. Z. S.
Al Ghafri
, and
E. F.
May
,
Fluid Phase Equilib.
519
,
112609
(
2020
).
16.
P. W.
Atkins
and
J.
De Paula
,
Atkins’ Physical Chemistry
(
Oxford University Press
,
New York
,
2006
).
17.
T.
Ahmed
, in
Equations of State and PVT Analysis
, edited by
T.
Ahmed
(
Gulf Publishing Company
,
Houston
,
2007
), pp.
331
456
.
18.
A. C.
Dimian
,
C. S.
Bildea
, and
A. A.
Kiss
, in
Computer Aided Chemical Engineering
, edited by
A. C.
Dimian
,
C. S.
Bildea
, and
A. A.
Kiss
(
Elsevier
,
Amsterdam
,
2014
), Vol. 35, pp.
157
200
.
19.
J. M.
Prausnitz
,
R. N.
Lichtenthaler
, and
E.
Gomes de Azevedo
,
Molecular Thermodynamics of Fluid-Phase Equilibria
(
Pearson Education
,
Upper Saddle River, NJ
,
1998
).
20.
J. H.
Hildebrand
and
R. L.
Scott
,
The Solubility of Nonelectrolytes
(
Reinhold Publishing Corporation
,
New York
,
1950
).
21.
KBC Advanced Technologies
, Infochem Multiflash 7.0, Walton-on-Thames, England,
2018
, https://www.kbc.global/software/advanced-thermodynamics/.
22.
C.
Baker
,
A.
Siahvashi
,
J.
Oakley
,
T.
Hughes
,
D.
Rowland
,
S.
Huang
, and
E. F.
May
,
J. Chem. Thermodyn.
137
,
22
(
2019
).
23.
C. J.
Baker
,
T. J.
Hughes
,
D.
Rowland
,
J.
Oakley
,
Z.
Aman
,
O.
Frotscher
, and
E. F.
May
, Fluid Science and Resources Division, The University of Western Australia, https://www.fsr.ecm.uwa.edu.au/thermofast-full/,
2020
.
24.
A.
Siahvashi
,
S. Z. S.
Al Ghafri
,
T. J.
Hughes
,
B. F.
Graham
,
S. H.
Huang
, and
E. F.
May
,
Exp. Therm. Fluid Sci.
105
,
47
(
2019
).
25.
A.
Siahvashi
,
S. Z. S.
Al Ghafri
,
B. F.
Graham
, and
E. F.
May
,
J. Nat. Gas Sci. Eng.
90
,
103918
(
2021
).
26.
R.
Feistel
and
W.
Wagner
,
J. Phys. Chem. Ref. Data
35
,
1021
(
2006
).
27.
J. P. M.
Trusler
,
J. Phys. Chem. Ref. Data
40
,
043105
(
2011
).
28.
J. P. M.
Trusler
,
J. Phys. Chem. Ref. Data
41
,
039901
(
2012
).
29.
A.
Jäger
and
R.
Span
,
J. Chem. Eng. Data
57
,
590
(
2012
).
30.
A.
Jäger
,
V.
Vinš
,
J.
Gernert
,
R.
Span
, and
J.
Hrubý
,
Fluid Phase Equilib.
338
,
100
(
2013
).
31.
V.
Vinš
,
A.
Jäger
,
R.
Span
, and
J.
Hrubý
,
Fluid Phase Equilib.
427
,
268
(
2016
).
32.
A.
Jäger
,
V.
Vinš
,
R.
Span
, and
J.
Hrubý
,
Fluid Phase Equilib.
429
,
55
(
2016
).
33.
V.
Vinš
,
A.
Jäger
,
S.
Hielscher
,
R.
Span
,
J.
Hrubý
, and
C.
Breitkopf
,
EPJ Web Conf.
143
,
02141
(
2017
).
34.
V.
Vinš
,
A.
Jäger
,
J.
Hrubý
, and
R.
Span
,
Fluid Phase Equilib.
435
,
104
(
2017
).
35.
S.
Hielscher
,
V.
Vinš
,
A.
Jäger
,
J.
Hrubý
,
C.
Breitkopf
, and
R.
Span
,
Fluid Phase Equilib.
459
,
170
(
2018
).
36.
S.
Hielscher
,
B.
Semrau
,
A.
Jäger
,
V.
Vinš
,
C.
Breitkopf
,
J.
Hrubý
, and
R.
Span
,
Fluid Phase Equilib.
490
,
48
(
2019
).
37.
M. T.
Dove
,
Introduction to Lattice Dynamics
(
Cambridge University Press
,
Cambridge
,
1993
).
38.
J. H.
Williams
,
Crystal Engineering
(
Morgan & Claypool Publishers
,
San Rafael, CA
,
2017
), pp.
1
19
.
39.
C.
Klein
and
C. S.
Hurlbut
,
Manual of Mineralogy
(
Wiley
,
New York
,
1985
).
40.
CrystalMaker
, CrystalMaker Software Ltd., Yarnton, OX5 1PF, UK, http://som.web.cmu.edu/structures/S105-benzene.html.
41.
L. M.
Lepodise
,
J.
Horvat
, and
R. A.
Lewis
,
Phys. Chem. Chem. Phys.
15
,
20252
(
2013
).
42.
M. M.
Thiéry
and
J. M.
Léger
,
J. Chem. Phys.
89
,
4255
(
1988
).
43.
C.
Kittel
,
Introduction to Solid State Physics
(
Wiley
,
Hoboken, NJ
,
2004
).
44.
J.-P.
Poirier
and
A.
Tarantola
,
Phys. Earth Planet. Inter.
109
,
1
(
1998
).
45.
L.
Vočadlo
,
J.
Poirer
, and
G.
Price
,
Am. Mineral.
85
,
390
(
2000
).
46.
S. W.
Kieffer
,
Rev. Geophys.
17
,
1
, (
1979
).
47.
X. K.
Qian
,
Advances in Science and Technology of Mn+1AXn Phases
(
Elsevier
,
Cambridge
,
2012
), pp.
1
19
.
48.
R. D.
Mair
and
D. F.
Hornig
,
J. Chem. Phys.
17
,
1236
(
1949
).
49.
C. A.
Swenson
and
W. B.
Person
,
J. Chem. Phys.
33
,
56
(
1960
).
50.
G. R.
Anderson
and
W. B.
Person
,
J. Chem. Phys.
36
,
62
(
1962
).
51.
J. L.
Hollenberg
and
D. A.
Dows
,
J. Chem. Phys.
37
,
1300
(
1962
).
52.
M.
Ito
,
J. Chem. Phys.
42
,
2844
(
1965
).
53.
I.
Harada
and
T.
Shimanouchi
,
J. Chem. Phys.
44
,
2016
(
1966
).
54.
A. R.
Gee
and
G. W.
Robinson
,
J. Chem. Phys.
46
,
4847
(
1967
).
55.
E. R.
Bernstein
,
S. D.
Colson
,
D. S.
Tinti
, and
G. W.
Robinson
,
J. Chem. Phys.
48
,
4632
(
1968
).
56.
H.
Bonadeo
,
M. P.
Marzocchi
,
E.
Castellucci
, and
S.
Califano
,
J. Chem. Phys.
57
,
4299
(
1972
).
57.
W. D.
Ellenson
and
M.
Nicol
,
J. Chem. Phys.
61
,
1380
(
1974
).
58.
P. C.
Painter
and
J. L.
Koenig
,
Spectrochim. Acta, Part A
33
,
1019
(
1977
).
59.
R.
Torre
,
R.
Righini
,
L.
Angeloni
, and
S.
Califano
,
J. Chem. Phys.
93
,
2967
(
1990
).
60.
M. M.
Thiéry
,
J. M.
Besson
, and
J. L.
Bribes
,
J. Chem. Phys.
96
,
2633
(
1992
).
61.
J. P.
Pinan
,
R.
Ouillon
,
P.
Ranson
,
M.
Becucci
, and
S.
Califano
,
J. Chem. Phys.
109
,
5469
(
1998
).
62.
E. B.
Wilson
, Jr.
,
Phys. Rev.
45
,
706
(
1934
).
63.
A. M.
Gardner
and
T. G.
Wright
,
J. Chem. Phys.
135
,
114305
(
2011
).
64.
A.
Katrusiak
,
M.
Podsiadło
, and
A.
Budzianowski
,
Cryst. Growth Des.
10
,
3461
(
2010
).
65.
J. D.
Dunitz
and
R. M.
Ibberson
,
Angew. Chem., Int. Ed.
47
,
4208
(
2008
).
66.
A. D.
Fortes
and
S. C.
Capelli
,
Phys. Chem. Chem. Phys.
20
,
16736
(
2018
).
67.
Z.
Wu
and
R. M.
Wentzcovitch
,
Phys. Rev. B
79
,
104304
(
2009
).
68.
A.-T.
Petit
and
P. L.
Dulong
,
Ann. Chim. Phys.
10
,
395
(
1819
).
69.
K. D.
Litasov
,
T. M.
Inerbaev
,
F. U.
Abuova
,
A. D.
Chanyshev
,
A. K.
Dauletbekova
, and
A. T.
Akilbekov
,
Geochem. Int.
57
,
499
(
2019
).
70.
M. J.
Assael
,
J. P. M.
Trusler
, and
T. F.
Tsolakis
,
Thermophysical Properties of Fluids: An Introduction to Their Prediction
(
World Scientific
,
London
,
1996
).
71.
E. R.
Andrew
and
R. G.
Eades
,
Proc. R. Soc. London, Ser. A
218
,
537
(
1953
).
72.
J. N.
Andrews
and
A. R. J. P.
Ubbelohde
,
Proc. R. Soc. London, Ser. A
228
,
435
(
1955
).
73.
G. E.
Bacon
,
N. A.
Curry
, and
S. A.
Wilson
,
Proc. R. Soc. London, Ser. A
279
,
98
(
1964
).
74.
W.
Biltz
,
W.
Fischer
, and
E.
Wünnenberg
,
Z. Phys. Chem.
151A
,
13
(
1930
).
75.
E. G.
Cox
,
Proc. R. Soc. London, Ser. A
135
,
491
(
1932
).
76.
E. G.
Cox
,
D. W. J.
Cruickshank
, and
J. A. S.
Smith
,
Proc. R. Soc. London, Ser. A
247
,
1
(
1958
).
78.
W.
Heuse
,
Z. Phys. Chem.
147A
,
266
(
1930
).
79.
A.
Heydweiller
,
Ann. Phys.
297
,
527
(
1897
).
80.
P. F.
Higgins
,
R. A. B.
Ivor
,
L. A. K.
Staveley
, and
J. J. d. C.
Virden
,
J. Chem. Soc.
1964
,
5762
.
81.
V.
Kozhin
,
Zh. Fiz. Khim.
28
,
566
(
1954
).
82.
C. A.
McConville
,
Y.
Tao
,
H. A.
Evans
,
B. A.
Trump
,
J. B.
Lefton
,
W.
Xu
,
A. A.
Yakovenko
,
E.
Kraka
,
C. M.
Brown
, and
T.
Runčevski
,
Chem. Commun.
56
,
13520
(
2020
).
83.
K.
Ziegler
and
F.
Ditzel
,
Justus Liebigs Ann. Chem.
473
,
194
(
1929
).
84.
J. E.
Ahlberg
,
E. R.
Blanchard
, and
W. O.
Lundberg
,
J. Chem. Phys.
5
,
539
(
1937
).
85.
D. H.
Andrews
,
G.
Lynn
, and
J.
Johnston
,
J. Am. Chem. Soc.
48
,
1274
(
1926
).
86.
S.
Aoyama
and
E.
Kanda
,
Sci. Rep. Tohoku Imp. Univ. Ser.
24
,
116
(
1935
).
87.
W. F.
Brucksch
, Jr.
and
W. T.
Ziegler
,
J. Chem. Phys.
10
,
740
(
1942
).
88.
J.
Dewar
,
Proc. R. Soc. London, Ser. A
89
,
158
(
1913
).
89.
A.
Diedrichs
, “
Optimization of a dynamic differential scanning calorimeter for the experimental determination of heat capacity
,” M.S. thesis,
University of Oldenburg
,
Oldenburg
,
2005
.
90.
I.
Hahnenkamp
, “
Experimental and theoretical studies on the solubility of drugs in solvents
,” M.S. thesis,
University of Oldenburg
,
Oldenburg
,
2008
.
91.
H. M.
Huffman
,
G. S.
Parks
, and
A. C.
Daniels
,
J. Am. Chem. Soc.
52
,
1547
(
1930
).
92.
O.
Maass
and
L. J.
Waldbauer
,
J. Am. Chem. Soc.
47
,
1
(
1925
).
93.
Z.
Nan
and
Z.-C.
Tan
,
Thermochim. Acta
419
,
275
(
2004
).
95.
G. D.
Oliver
,
M.
Eaton
, and
H. M.
Huffman
,
J. Am. Chem. Soc.
70
,
1502
(
1948
).
96.
D. R.
Stull
,
J. Am. Chem. Soc.
59
,
2726
(
1937
).
98.
J. C. W.
Heseltine
,
D. W.
Elliott
, and
O. B.
Wilson
, Jr.
,
J. Chem. Phys.
40
,
2584
(
1964
).
99.
J. H.
de Boer
,
Trans. Faraday Soc.
32
,
10
(
1936
).
100.
V. R.
Deitz
,
J. Am. Chem. Soc.
55
,
472
(
1933
).
101.
C. G.
De Kruif
and
C. H. D.
Van Ginkel
,
J. Chem. Thermodyn.
9
,
725
(
1977
).
102.
W.
Hessler
and
Z.
Wiss
,
Wilhelm-Pieck-Univ. Rostich
33
,
9
(
1984
).
103.
A. W.
Jackowski
,
J. Chem. Thermodyn.
6
,
49
(
1974
).
104.
A. H.
Jones
,
J. Chem. Eng. Data
5
,
196
(
1960
).
105.
G.
Milazzo
,
Ann. Chim.
46
,
1105
(
1956
).
106.
G.
Milazzo
,
Chem. Abstr.
51
,
7791b
(
1957
).
107.
C. F.
Mündel
,
Z. Phys. Chem.
85U
,
435
(
1913
).
108.
K.
Růžička
,
M.
Fulem
, and
C.
Červinka
,
J. Chem. Thermodyn.
68
,
40
(
2014
).
109.
R. M.
Stephenson
and
S.
Malanowski
,
Handbook of the Thermodynamics of Organic Compounds
(
Elsevier
,
New York
,
1987
).
110.
H.
Ha
,
J. A.
Morrison
, and
E. L.
Richards
,
J. Chem. Soc., Faraday Trans. 1
72
,
1051
(
1976
).
111.
D. R.
Stull
,
Ind. Eng. Chem.
39
,
517
(
1947
).
112.
J. T.
Barker
,
Z. Phys. Chem.
71U
,
235
(
1910
).
113.
S. U.
Choi
and
H. C.
Brown
,
J. Am. Chem. Soc.
88
,
903
(
1966
).
114.
C. G.
De Kruif
,
J. Chem. Thermodyn.
12
,
243
(
1980
).
115.
I.
Kiss
,
G. Y.
Jakli
, and
H.
Illy
,
Acta Chim. Acad. Sci. Hung.
71
,
59
(
1972
).
116.
K.
Liu
and
R. M.
Dickhut
,
Chemosphere
29
,
581
(
1994
).
117.
G.
Milazzo
,
Chem. Ing. Tech.
28
,
646
(
1956
).
118.
N. R.
Miljevic
,
Z. V.
Knezevic
,
V. R.
Dokic
, and
J. D.
Pupezin
,
Glas. Hem. Drus. Beograd
42
,
243
(
1977
).
119.
D.
Radulescu
and
M.
Alexa
,
Bull. Soc. Chim. Romania
20A
,
89
(
1938
).
120.
R. P.
Rastogi
,
J.
Nath
, and
J.
Misra
,
J. Phys. Chem.
71
,
1277
(
1967
).
121.
S.
Young
,
Sci. Proc. R. Dublin Soc.
12
,
374
(
1910
).
122.
D.-Y.
Peng
and
D. B.
Robinson
,
Ind. Eng. Chem. Fundam.
15
,
59
(
1976
).
123.
A.
Péneloux
,
E.
Rauzy
, and
R.
Fréze
,
Fluid Phase Equilib.
8
,
7
(
1982
).
124.
P. W.
Bridgman
,
Phys. Rev.
3
,
153
(
1914
).
125.
M.
Azreg-Aïnou
,
A.
Hüseynov
, and
B.
İbrahimoğlu
,
J. Chem. Phys.
124
,
204505
(
2006
).
126.
M.
Azreg-Aïnou
,
A.
Hüseynov
, and
B.
İbrahimoğlu
,
J. Chem. Phys.
125
,
099901
(
2006
).
127.
J.
Osugi
,
K.
Shimizu
, and
A.
Onodera
,
Rev. Phys. Chem. Jpn.
34
,
97
(
1965
).
128.
F. D.
Rossini
,
K. S.
Pitzer
,
R. L.
Arnett
,
R. M.
Braun
, and
G. C.
Pimentel
,
Selected Values of Physical and Thermodynamic Properties of Hydrocarbons and Related Compounds
(
Carnegie Press
,
Pittsburgh
,
1953
).
129.
K.
Schäfer
and
E.
Lax
,
Kalorische Zustandsgrößen (Landolt-Börnstein: Zahlenwerte und Funktionen aus Physik, Chemie, Astronomie, Geophysik und Technik, 2/4)
(
Springer-Verlag
,
Berlin
,
1961
).
130.
G. W.
Smith
,
Mol. Cryst. Liq. Cryst.
49
,
207
(
1979
).
131.
K.
Stratton
and
J. R.
Partington
,
London, Edinburgh Dublin Philos. Mag. J. Sci.
48
,
1085
(
1924
).
132.
J.
Timmermans
,
Physico-Chemical Constants of Pure Organic Compounds
(
Elsevier Publishing
,
Amsterdam
,
1950
).
133.
J.
Timmermans
,
Physico-Chemical Constants of Pure Organic Compounds Vol. II
(
Elsevier
,
New York
,
1965
).
134.
H.
Tschamler
,
Monatsh. Chem.
79
,
162
(
1948
).
135.
A.
Watanabe
,
T.
Iiyama
, and
K.
Kaneko
,
Chem. Phys. Lett.
305
,
71
(
1999
).
136.
W.
Xu
,
R.
Zhu
,
Y.
Tian
,
H.
Li
, and
H.
Li
,
J. Chem. Eng. Data
52
,
1975
(
2007
).
137.
W. T.
Ziegler
and
D. H.
Andrews
,
J. Am. Chem. Soc.
64
,
2482
(
1942
).
138.
E. A.
Block
,
Z. Phys. Chem.
82U
,
403
(
1913
).
139.
G.
Tammann
,
Kristallisieren und Schmelzen
(
University of Leipzig
,
Leipzig
,
1903
).
140.
P. W.
Bridgman
,
Proc. Am. Acad. Arts Sci.
77
,
129
(
1949
).
141.
L.
Deffet
,
Bull. Soc. Chim. Belg.
44
,
41
(
1935
).
142.
L.
Deffet
and
G.
Vlerick
,
Bull. Soc. Chim. Belg.
51
,
237
(
1942
).
143.
U.
Domańska
and
P.
Morawski
,
J. Chem. Thermodyn.
37
,
1276
(
2005
).
144.
U.
Domańska
and
P.
Morawski
,
Green Chem.
9
,
361
(
2007
).
145.
A. J.
Easteal
,
L. A.
Woolf
, and
F. L.
Wilson
,
Int. J. Thermophys.
6
,
275
(
1985
).
146.
P.
Figuière
,
A. H.
Fuchs
,
M.
Ghelfenstein
, and
H.
Szwarc
,
J. Phys. Chem. Solids
39
,
19
(
1978
).
148.
M.
Ghelfenstein
and
H.
Szwarc
,
Chem. Phys. Lett.
32
,
93
(
1975
).
149.
G. A.
Hulett
,
Z. Phys. Chem.
28U
,
629
(
1899
).
150.
T.
Makita
and
T.
Takagi
,
Rev. Phys. Chem. Jpn.
38
,
41
(
1968
).
151.
K.
Nagaoka
and
T.
Makita
,
Int. J. Thermophys.
8
,
415
(
1987
).
152.
J.
Osugi
,
K.
Shimizu
,
K.
Yasunami
,
M.
Moritoki
, and
A.
Onodera
,
Rev. Phys. Chem. Jpn.
38
,
90
(
1969
).
153.
P.
Pruzan
, Ph.D. thesis,
These de Doctorat es-Sciences
,
Paris
,
1976
.
154.
P.
Pruzan
,
L.
Ter Minassian
, and
A.
Soulard
, in
High-Pressure Science and Technology
, edited by
K. D.
Timmerhaus
and
M. S.
Barber
(
Springer; University of Colorado
,
Boulder, CO
,
1979
), Vol. 1, pp.
368
378
.
155.
T. F.
Sun
,
P. J.
Kortbeek
,
S. N.
Biswas
,
N. J.
Trappeniers
, and
J. A.
Schouten
,
Ber. Bunsenges. Phys. Chem.
91
,
1013
(
1987
).
156.
Y.
Tanaka
and
M.
Kawakami
,
Fluid Phase Equilib.
125
,
103
(
1996
).
157.
C.
Yokoyama
,
T.
Ebina
, and
S.
Takahashi
,
Fluid Phase Equilib.
84
,
207
(
1993
).
158.
A.
Budzianowski
and
A.
Katrusiak
,
Acta Crystallogr., Sect. B
62
,
94
(
2006
).
159.
D. W. M.
Hofmann
and
L. N.
Kuleshova
,
Cryst. Growth Des.
14
,
3929
(
2014
).
160.
P. W.
Bridgman
,
J. Chem. Phys.
9
,
794
(
1941
).
161.
P. W.
Bridgman
,
Proc. Am. Acad. Arts Sci.
74
,
399
(
1942
).
162.
R. G.
Ross
,
P.
Andersson
, and
G.
Bäckström
,
Mol. Phys.
38
,
527
(
1979
).
163.
A. H.
Fuchs
,
P.
Pruzan
, and
L.
Ter Minassian
,
J. Phys. Chem. Solids
40
,
369
(
1979
).
164.
P.
Pruzan
,
D. H.
Liebenberg
, and
R. L.
Mills
,
J. Phys. Chem. Solids
47
,
949
(
1986
).
165.
P.
Stringari
,
M.
Campestrini
, and
S.
Hoceini
,
J. Chem. Eng. Data
(in press) (
2021
).

Supplementary Material

You do not currently have access to this content.