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\citation{PhysRevB.59.3527} |
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\citation{PhysRevB.59.3527} |
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\citation{TraPPE-UA.alkanes} |
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\citation{TraPPE-UA.alkanes} |
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\citation{kuang:AuThl} |
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\@writefile{toc}{\contentsline {section}{\numberline {3}Computational Details}{4}} |
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\@writefile{toc}{\contentsline {section}{\numberline {4}Tests and Applications}{6}} |
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\@writefile{lot}{\contentsline {table}{\numberline {1}{\ignorespaces Calculated thermal conductivity of a crystalline gold nanoparticle of radius 40 \r A. Calculations were performed at 300 K and ambient density. Gold-gold interactions are described by the Quantum Sutton-Chen potential.}}{7}} |
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\newlabel{table:goldconductivity}{{1}{7}} |
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\@writefile{lot}{\contentsline {table}{\numberline {2}{\ignorespaces Calculated thermal conductivity of a cluster of 6912 SPC/E water molecules. Calculations were performed at 300 K and ambient density.}}{7}} |
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\@writefile{lot}{\contentsline {table}{\numberline {4}{\ignorespaces Calculated ``stick'' interfacial friction coefficients ($\kappa $) and friction factors ($f$) of gold nanostructures solvated in TraPPE-UA hexane at 230 K. The ellipsoid is oriented with the long axis along the $z$ direction.}}{9}} |
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\bibdata{acs-nonperiodicVSS,nonperiodicVSS} |
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\bibcite{Vardeman2011}{{1}{2011}{{Vardeman et~al.}}{{Vardeman, Stocker, and Gezelter}}} |
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\bibcite{Barber96}{{2}{1996}{{Barber et~al.}}{{Barber, Dobkin, and Huhdanpaa}}} |
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\bibcite{EDELSBRUNNER:1994oq}{{3}{1994}{{Edelsbrunner and Mucke}}{{Edelsbrunner, and Mucke}}} |
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\bibcite{openmd}{{4}{}{{Gezelter et~al.}}{{Gezelter, Kuang, Marr, Stocker, Li, Vardeman, Lin, Fennell, Sun, Daily, Zheng, and Meineke}}} |
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\bibcite{Kuang2012}{{5}{2012}{{Kuang and Gezelter}}{{Kuang, and Gezelter}}} |
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\bibcite{Bedrov:2000}{{6}{2000}{{Bedrov and Smith}}{{Bedrov, and Smith}}} |
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\bibcite{Kuang2010}{{7}{2010}{{Kuang and Gezelter}}{{Kuang, and Gezelter}}} |
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\bibcite{PhysRevB.59.3527}{{8}{1999}{{Qi et~al.}}{{Qi, \c {C}a\v {g}in, Kimura, and {Goddard III}}}} |
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\bibcite{TraPPE-UA.alkanes}{{9}{1998}{{Martin and Siepmann}}{{Martin, and Siepmann}}} |
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\bibcite{kuang:AuThl}{{10}{2011}{{Kuang and Gezelter}}{{Kuang, and Gezelter}}} |
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\bibcite{vlugt:cpc2007154}{{11}{2007}{{Schapotschnikow et~al.}}{{Schapotschnikow, Pool, and Vlugt}}} |
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\bibcite{hautman:4994}{{12}{1989}{{Hautman and Klein}}{{Hautman, and Klein}}} |
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\@writefile{lof}{\contentsline {figure}{\numberline {1}{\ignorespaces Schematics of periodic (left) and nonperiodic (right) Velocity Shearing and Scaling RNEMD. A kinetic energy or momentum flux is applied from region B to region A. Thermal gradients are depicted by a color gradient. Linear or angular velocity gradients are shown as arrows.\relax }}{12}} |
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