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-rw-r--r--PEDOT_PSS/chapter.tex10
1 files changed, 5 insertions, 5 deletions
diff --git a/PEDOT_PSS/chapter.tex b/PEDOT_PSS/chapter.tex
index d932787..a0ef8e3 100644
--- a/PEDOT_PSS/chapter.tex
+++ b/PEDOT_PSS/chapter.tex
@@ -37,14 +37,14 @@ even more structural inhomogeneity.
In summary, PEDOT:PSS has a complex, nested microstructure. %
From smallest to largest:
\begin{ditemize}
- \item PEDOT oligomers (6---18-mers) [CITE 14]
+ \item PEDOT oligomers (6---18-mers) % [CITE 14]
\item these oligomers $\pi$-stack to form small nanocrystalites, 3 to 14 oligomers for pristine
- films to as many as 13---14 oligomers for more conductive solvent treated films [CITE 15]
+ films to as many as 13---14 oligomers for more conductive solvent treated films % [CITE 15]
\item nanocrystallites then arrange into globular conductive particles in a pancake-like shape
- [CITE 16, 17]
+ % [CITE 16, 17]
\item these particles themselves are then linked via PSS-rich domains and assembled into
- nanofibril geometry akin to a string of pearls [CITE 6, 21]
- \item nanofibrils interweave to form thin films, with PSS capping layer at surface [CITE 19, 22]
+ nanofibril geometry akin to a string of pearls %[CITE 6, 21]
+ \item nanofibrils interweave to form thin films, with PSS capping layer at surface %[CITE 19, 22]
\end{ditemize}
In order to be conductive, PEDOT:PSS needs to have good spatial and energetic overlap between