A polythiophene thin film was fabricated on gold nanoparticle
(AuNP)-deposited
indium–tin-oxide (ITO) electrodes with electropolymerization,
whereas AuNPs were predeposited on the ITO surface. A photocurrent
via photoexcited polythiophene increased with AuNPs which was attributed
to the localized surface plasmon resonance. Investigation of the AuNP-density
dependence on the relative enhancement of photocurrent revealed the
maximum effect at 14% of AuNP-density, while 68% of AuNP-density exhibited
smaller photocurrent than the polythiophene electrode without AuNPs.
We have revealed that the effects of AuNPs saturate in the fairly
low density region, and that the excess AuNPs even in the range of
submonolayer resulted in the decrement of photocurrents.