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| author | Blaise Thompson <blaise@untzag.com> | 2018-04-14 22:36:49 -0500 |
|---|---|---|
| committer | Blaise Thompson <blaise@untzag.com> | 2018-04-14 22:36:49 -0500 |
| commit | 4c38970579d9bd994b18f10ab9fd3956beff4929 (patch) | |
| tree | f608eef945af717228aca43c807a467f7e63d7b4 /introduction/chapter.tex | |
| parent | ca98a888e2e9bee0db59b7f6ebf21aa48d5892a8 (diff) | |
2018-04-14 22:36
Diffstat (limited to 'introduction/chapter.tex')
| -rw-r--r-- | introduction/chapter.tex | 2 |
1 files changed, 1 insertions, 1 deletions
diff --git a/introduction/chapter.tex b/introduction/chapter.tex index fe43cb4..f6adc46 100644 --- a/introduction/chapter.tex +++ b/introduction/chapter.tex @@ -205,7 +205,7 @@ In \autoref{cha:mx2} we report the first MR-CMDS study performed on a molybdenum film. %
MoS\textsubscript{2} is a member of a class of materials called transition metal dichacolgenides
which have recently attracted a large amount of attention for their unique photophysical
-properties. %
+properties. \cite{MakKinFai2010a, XuXiaodong2014a, XiaoDi2012a} %
These thin films have relatively low optical density and are highly scattering, making them
particularly challenging for MR-CMDS experiments. %
We employed several strategies to overcome these challenges, and performed three dimensional
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