posted on 2014-10-07, 00:00authored byManuel Gadogbe, Siyam
M. Ansar, I-Wei Chu, Shengli Zou, Dongmao Zhang
Nanoparticle self-assembly is fundamentally
important for bottom-up
functional device fabrication. Currently, most nanoparticle self-assembly
has been achieved with gold nanoparticles (AuNPs) functionalized with
surfactants, polymeric materials, or cross-linkers. Reported herein
is a facile synthesis of gold and silver nanoparticle (AgNP) films
assembled onto thiophene oil by simply vortex mixing neat thiophene
with colloidal AuNPs or AgNPs for ∼1 min. The AuNP film can
be made using every type of colloidal AuNPs we have explored, including
sodium borohydride-reduced AuNPs with a diameter of ∼5 nm,
tannic acid-reduced AuNPs of ∼10 nm diameter, and citrate-reduced
AuNPs with particle sizes of ∼13 and ∼30 nm diameter.
The AuNP film has excellent stability and it is extremely flexible.
It can be stretched, shrunken, and deformed accordingly by changing
the volume or shape of the enclosed thiophene oil. However, the AgNP
film is unstable, and it can be rapidly discolored and disintegrated
into small flakes that float on the thiophene surface. The AuNP and
AgNP films prepared in the glass vials can be readily transferred
to glass slides and metal substrates for surface-enhanced Raman spectral
acquisition.