posted on 2014-05-13, 00:00authored byNeus G. Bastús, Florind Merkoçi, Jordi Piella, Victor Puntes
Highly monodisperse sodium citrate-coated
spherical silver nanoparticles
(Ag NPs) with controlled sizes ranging from 10 to 200 nm have been
synthesized by following a kinetically controlled seeded-growth approach
via the reduction of silver nitrate by the combination of two chemical
reducing agents: sodium citrate and tannic acid. The use of traces
of tannic acid is fundamental in the synthesis of silver seeds, with
an unprecedented (nanometric resolution) narrow size distribution
that becomes even narrower, by size focusing, during the growth process.
The homogeneous growth of Ag seeds is kinetically controlled by adjusting
reaction parameters: concentrations of reducing agents, temperature,
silver precursor to seed ratio, and pH. This method produces long-term
stable aqueous colloidal dispersions of Ag NPs with narrow size distributions,
relatively high concentrations (up to 6 × 1012 NPs/mL),
and, more important, readily accessible surfaces. This was proved
by studying the catalytic properties of as-synthesized Ag NPs using
the reduction of Rhodamine B (RhB) by sodium borohydride as a model
reaction system. As a result, we show the ability of citrate-stabilized
Ag NPs to act as very efficient catalysts for the degradation of RhB
while the coating with a polyvinylpyrrolidone (PVP) layer dramatically
decreased the reaction rate.