Poly(N-vinylpyrrolidone)-stabilized polystyrene
(PS) latexes have been coated with thin overlayers of
polyaniline (PANi) to produce electrically conductive
“core−shell” particles. In this work we focused
on
the morphology of the PANi overlayer, the colloid stability of the
coated latexes, and electrical conductivity.
PANi-coated particles exhibit a nonuniform morphology as observed
by scanning electron microscopy
(SEM), in comparison with the relatively smooth polypyrrole overlayers
synthesized in a previous study
(Lascelles, S. F. et al., J. Mater. Chem.
1997,
7, 1339 and 1349). Disk centrifuge
photosedimentometry
confirmed that the PANi-coated PS latexes were weakly flocculated.
The underlying PS latex “core” was
quantitatively removed by solvent extraction, and SEM observations of
the PANi residues revealed a
“broken egg shell” morphology. Vibrational bands due to the
PANi component were more intense in both
the FT-IR and Raman spectra of the PANi-coated PS latexes, which is
also consistent with the “core−shell”
morphology. No reduction in the surface roughness of the PANi
overlayer was observed when the rate
of the aniline polymerization was decreased or if the latex surface was
pretreated with either a thin
polypyrrole overlayer or a layer of adsorbed surfactant.
Similarly, only rough PANi overlayers were
observed when coating a sulfonated PS latex. However, a more
uniform deposition of PANi and a
corresponding improvement of colloid stability were obtained using
aniline hydrochloride monomer in the
absence of added acid.
AFM and Raman microscopy map the distribution of amorphous material at the surface of a sorbitol crystal with submicron spatial resolution, demonstrating surface analysis methods for characterizing semicrystalline solids generated during pharmaceutical processing.
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