Uniform
silver-containing metal nanostructures with strong and
stable surface-enhanced Raman scattering (SERS) signals hold great
promise for developing ultrasensitive probes for biodetection. Nevertheless,
the direct synthesis of such ready-to-use nanoprobes remains extremely
challenging. Herein we report a DNA-mediated gold–silver nanomushroom
with interior nanogaps directly synthesized and used for multiplex
and simultaneous SERS detection of various DNA and RNA targets. The
DNA involved in the nanostructures can act as not only gap DNA (mediated
DNA) but also probe DNA (hybridized DNA), and DNA’s involvement
enables the nanostructures to have the inherent ability to recognize
DNA and RNA targets. Importantly, we were the first to establish a
new method for the generation of multicolor SERS probes using two
different strategies. First Raman-labeled alkanethiol probe DNA was
assembled on gold nanoparticles, and second, thiol-containing Raman
reporters were coassembled with the probe DNA. The ready-to-use probes
also give great potential to develop ultrasensitive detection methods
for various biological molecules.
It is highly demanding to design active nanomotors that can move in response to specific signals with controllable rate and direction. A catalysis-driven nanomotor was constructed by designing catalytically and plasmonically active Janus gold nanoparticles (Au NPs), which generate an asymmetric temperature gradient of local solvent surrounding NPs in catalytic reactions. The self-thermophoresis behavior of the Janus nanomotor is monitored from its inherent plasmonic response. The diffusion coefficient of the self-thermophoresis motion is linearly dependent on chemical reaction rate, as described by a stochastic model.
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