1 research outputs found
Thermal Processing as a Means to Prepare Durable, Submicron Thickness Ionomer Films for Study by Transmission Infrared Spectroscopy
A high temperature solution processing method was adapted
to prepare
durable, freestanding, submicrometer thickness films for transmission
infrared spectroscopy studies of ionomer membrane. The materials retain
structural integrity following cleaning and ion-exchange steps in
boiling solutions, similar to a commercial fuel cell membrane. Unlike
commercial membrane, which typically has thicknesses of >25 μm,
the structural properties of the submicrometer thickness materials
can be probed in mid-infrared spectral measurements with the use of
transmission sampling. Relative to the infrared attenuated total reflection
(ATR) technique, transmission measurements can sample ionomer membrane
materials more uniformly and suffer less distortion from optical effects.
Spectra are reported for thermally processed Nafion and related perfluoroalkyl
ionomer materials containing phosphonate and phosphinate moieties
substituted for the sulfonate end group on the side chain. Band assignments
for complex or unexpected features are aided by density functional
theory (DFT) calculations