X-Git-Url: https://git.ucc.asn.au/?a=blobdiff_plain;f=thesis%2Fchapters%2FConclusion.tex;h=dc55180555ef0fd0f8bbc5c602989b5fdde195c0;hb=d64ad3f0b622195e307ae648d2c7dede88566fa5;hp=1a10651bd1ef8639b69ab2f2cd86831c82546f0e;hpb=ddcdd43bf4077f35beefc59eb8568e13b6c5b3cd;p=matches%2Fhonours.git

diff --git a/thesis/chapters/Conclusion.tex b/thesis/chapters/Conclusion.tex
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+++ b/thesis/chapters/Conclusion.tex
@@ -1,5 +1,26 @@
-\chapter{Conclusion}
+\chapter{Conclusions} \label{chapter_conclusion}
 
-We have demonstrated the use of multiple techniques for characterisation and analysis of metallic thin films\footnote{(We have?)}. In particular we have found measurable differences in the properties of metallic-black thin films in comparison with bright metallic thin films. We just don't know what to say about them yet.
+\begin{enumerate}
+
+\item We fabricated a range of nanostructured metallic thin films on both Si and glass substrates using evaporative techniques. These films have been characterised using a combination of electronic and optical spectroscopy techniques.
+
+\item Secondary electron microscopy analysis reveals striking differences in the structure of Au and Black Au films; Au films have been shown to consist of a regular periodic array of nanoparticles, whilst Black Au appears to consist of a highly randomised, porous mix of strand like structures.
+
+\item A Total Current Spectroscopy experiment for characterisation of samples in situ has been integrated with the technology for sample preparation. We used this setup to investigate elastic scattering of electrons as a function of film deposition. 
+\begin{itemize}
+	\item Results for Black metal films deposited on existing layers of metal films suggest that the Black metal films present a sharper, more step like potential barrier to the primary electrons. 
+	\item Further improvements may be made to the Total Current Specroscopy experiment with a possibility to investigate inelastic scattering processes occuring in the metallic thin films.
+\end{itemize}
+
+\item 
+The optical properties of Black Au have been investigated and compared with those of Au. 
+\begin{itemize}
+	\item Transmission spectroscopy experiments support existing evidence for a plateau in the infra-red.
+	\item We found a minima in the transmission spectrum of a Black Au film at around $370$nm; this minima is absent in the spectrum of a similar thickness Au film. 
+\end{itemize}
+
+\item Ellipsometry has been used to determine the optical constants of thin films of Ag and Black Ag. These results show a significant peak in both the refractive index and extinction coefficient of the Black Ag film in the region of $350$ to $400$nm. These peaks are absent for the Ag sample.
+
+\end{enumerate}