569 |
|
simulation box.} |
570 |
|
\label{interfaceDensity} |
571 |
|
\end{figure} |
572 |
+ |
|
573 |
+ |
|
574 |
+ |
\begin{figure} |
575 |
+ |
\includegraphics[width=\linewidth]{interfaceGrad} |
576 |
+ |
\caption{Temperature profiles for interfacial thermal conductivity |
577 |
+ |
simulation box.} |
578 |
+ |
\label{interfaceGrad} |
579 |
+ |
\end{figure} |
580 |
+ |
|
581 |
+ |
\begin{equation} |
582 |
+ |
G = \frac{E_{total}}{2 t L_x L_y \left( \langle T_{gold}\rangle - |
583 |
+ |
\langle T_{water}\rangle \right)} |
584 |
+ |
\label{interfaceCalc} |
585 |
+ |
\end{equation} |
586 |
+ |
|
587 |
+ |
|
588 |
+ |
\begin{table*} |
589 |
+ |
\begin{minipage}{\linewidth} |
590 |
+ |
\begin{center} |
591 |
+ |
|
592 |
+ |
\caption{Calculation results for interfacial thermal conductivity |
593 |
+ |
at ${\langle T\rangle \sim}$ 300K at various thermal exchange |
594 |
+ |
rates. Errors of calculations in parentheses. } |
595 |
|
|
596 |
+ |
\begin{tabular}{cccc} |
597 |
+ |
\hline |
598 |
+ |
$J_z$(MW/m$^2$) & $T_{gold}$ & $T_{water}$ & $G$(MW/m$^2$/K)\\ |
599 |
+ |
\hline |
600 |
+ |
98.0 & 355.2 & 295.8 & 1.65() \\ |
601 |
+ |
78.8 & 343.8 & 298.0 & 1.72() \\ |
602 |
+ |
73.6 & 344.3 & 298.0 & 1.59() \\ |
603 |
+ |
49.2 & 330 & 300 & 1.64() \\ |
604 |
+ |
\hline |
605 |
+ |
\end{tabular} |
606 |
+ |
\label{AuThermal} |
607 |
+ |
\end{center} |
608 |
+ |
\end{minipage} |
609 |
+ |
\end{table*} |
610 |
|
|
611 |
+ |
|
612 |
|
\section{Acknowledgments} |
613 |
|
Support for this project was provided by the National Science |
614 |
|
Foundation under grant CHE-0848243. Computational time was provided by |