Using molecular dynamics, we consider the thermal resistances of superlattices consisting of varying numbers of distinct nanolayers of two different materials. These are placed between two water reservoirs at uniform hot and cold temperatures. The interfacial resistances produced between different solid layers can lead to significantly lower heat transfer for a specified temperature difference. Such a large reduction in thermal transport cannot be explained by the interfacial resistance alone. In addition to the interfacial resistance between two adjacent superlattice layers, the relatively wide thermal boundary layers that are produced adjacent to the interfaces introduces a supplementary resistance.

2.
J. -L.
Barrat
and
F.
Chiaruttini
,
Mol. Phys.
101
,
1605
(
2003
).
3.
C.
Oligschleger
and
J. C.
Schon
,
Phys. Rev. B
59
,
4125
(
1999
).
4.
P. A. E.
Schoen
,
B.
Michel
,
A.
Curioni
, and
D.
Poulikakos
,
Chem. Phys. Lett.
476
,
271
(
2009
).
5.
E. T.
Swartz
and
R. O.
Pohl
,
Rev. Mod. Phys.
61
,
605
(
1989
).
6.
P. L.
Kapitza
,
J. Phys. (USSR)
4
,
181
(
1941
).
7.
G.
Balasubramanian
,
S.
Banerjee
, and
I. K.
Puri
,
J. Appl. Phys.
104
,
064306
(
2008
).
8.
S.
Murad
and
I. K.
Puri
,
Appl. Phys. Lett.
92
,
133105
(
2008
).
9.
S.
Murad
and
I. K.
Puri
,
Chem. Phys. Lett.
467
,
110
(
2008
).
10.
S.
Murad
and
I. K.
Puri
,
Chem. Phys. Lett.
476
,
267
(
2009
).
11.
A. F.
Khater
,
J. Phys. Colloq.
39
,
C6
(
1978
).
12.
S. M.
Lee
,
D. G.
Cahill
, and
R.
Venkatasubramanian
,
Appl. Phys. Lett.
70
,
2957
(
1997
).
13.
T.
Borca-Tasciuc
,
W. L.
Liu
,
J. L.
Liu
,
T. F.
Zeng
,
D. W.
Song
,
C. D.
Moore
,
G.
Chen
,
K. L.
Wang
,
M. S.
Goorsky
,
T.
Radetic
,
R.
Gronsky
,
T.
Koga
, and
M. S.
Dresselhaus
,
Superlattices Microstruct.
28
,
199
(
2000
).
14.
D. G.
Cahill
,
W. K.
Ford
,
K. E.
Goodson
,
G. D.
Mahan
,
A.
Majumdar
,
H. J.
Maris
,
R.
Merlin
, and
S. R.
Phillpot
,
J. Appl. Phys.
93
,
793
(
2003
).
15.
M. P.
Allen
and
D. J.
Tildesley
,
Computer Simulation of Liquids
(
Clarendon
,
Oxford
,
1987
).
16.
H. -M.
Kagaya
,
T.
Soma
, and
M. R.
Brozel
, in
Properties of Crystalline Silicon
, edited by
R.
Hull
(
The Institution of Engineering and Technology
,
London, U.K.
,
1999
), pp.
151
152
.
17.
S.
Murad
and
J.
Lin
,
Chem. Eng. J.
74
,
99
(
1999
).
18.
S.
Murad
and
J.
Lin
,
Ind. Eng. Chem. Res.
41
,
1076
(
2002
).
19.
D. J.
Evans
and
S.
Murad
,
Mol. Phys.
34
,
327
(
1977
).
20.
S.
Banerjee
,
S.
Murad
, and
I. K.
Puri
,
Chem. Phys. Lett.
434
,
292
(
2007
).
21.
S.
Murad
and
I. K.
Puri
,
Nano Lett.
7
,
707
(
2007
).
22.
S.
Murad
and
I. K.
Puri
,
Phys. Fluids
19
,
128102
(
2007
).
23.
I. G.
Tironi
,
R.
Sperb
,
P. E.
Smith
, and
W. F.
Vangunsteren
,
J. Chem. Phys.
102
,
5451
(
1995
).
24.
H. J. C.
Berendson
,
J.
Postma
, and
W. F.
van Gunsteren
, in
Intermolecular Forces
, edited by
B.
Pullman
(
Reidel
,
Dordecht
,
1981
).
25.
J.
Chandrasekhar
,
S. F.
Smith
, and
W. L.
Jorgensen
,
J. Am. Chem. Soc.
106
,
3049
(
1984
).
26.
You do not currently have access to this content.