285 |
|
\\ \hline \hline |
286 |
|
{$J_r$} & {$\langle dT / dr \rangle$} & {$\boldsymbol \lambda$}\\ |
287 |
|
{\small(kcal fs$^{-1}$ \AA$^{-2}$)} & {\small(K \AA$^{-1}$)} & {\small(W m$^{-1}$ K$^{-1}$)}\\ \hline |
288 |
+ |
1.00$\times 10^{-5}$ & 0.38683 & 1.79665486\\ |
289 |
+ |
3.00$\times 10^{-5}$ & 1.1643 & 1.79077557\\ |
290 |
+ |
6.00$\times 10^{-5}$ & 2.2262 & 1.87314707\\ |
291 |
|
\\ \hline \hline |
292 |
|
\label{table:waterconductivity} |
293 |
|
\end{longtable} |
297 |
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
298 |
|
\subsection{Interfacial thermal conductance} |
299 |
|
|
300 |
+ |
The measured interfacial thermal conductance for a 30 \AA$~$ radius gold nanopaticle solvated in TraPPE-UA hexane is 69.55 MW m$^{-2}$ K$^{-1}$. The region A selection was a 25 \AA$~$ radius sphere centered in the nanoparticle and the region B selection was hexane molecules beyond a 67 \AA$~$ radius. |
301 |
+ |
|
302 |
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
303 |
|
% INTERFACIAL FRICTION |
304 |
|
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |