Add to ORKGA highly efficient Surface Enhanced Raman Scattering (SERS) substrate was prepared using a nanocluster deposition system that enabled detection of Crystal Violet molecules down to a single molecule level. The large SERS signal enhancement can be attributed to the presence of nano gaps on the surface of the nanoclusters which create abundant hot spots for electric field enhancement. Observed variations in the Raman peaks at very low molar concentrations in the range 4 x 10(-14)-3.2 x 10(-18) M suggest that the spectra are due to a single molecule. Possible mechanisms for ultrahigh SERS sensitivity of the substrates are discussed. These substrates take the detection limit of CV down by two orders of magnitude as compared to those reported in ...
One-dimensional arrays of silver nanoparticles with a particle size of 10.5 nm and interparticle spa...
ince the discovery of the enhanced Raman signals on a roughed metallic surface, the SERS technique h...
Surface-enhanced Raman scattering (SERS) from silver nanosculptured thin films (STF) was studied in ...
We introduce a simple but robust method to fabricate an ultrahigh-density array of silver nanocluste...
We introduce a simple but robust method to fabricate an ultrahigh-density array of silver nanocluste...
An atomically precise silver cluster, Ag<sub>152</sub> protected with thiolate ligands, was used as ...
ABSTRACT: An atomically precise silver cluster, Ag152 protected with thiolate ligands, was used as a...
Surface-enhanced Raman scattering (SERS) with enormous enhancements has shown great potential in sin...
Abstract: This presentation gives the fabrication and SERS activity of trigonal silver nanostructure...
Modified diamond thin film surfaces are proven candidates for bio-sensoric applications. A typical p...
Surface-enhanced Raman spectroscopy (SERS) is a very promising analytical technique for the detectio...
The optical properties of metallic Nanoparticles have a big scientific and technological importance....
Raman scattering has been one of the well known spectroscopic phenomena since 1928 when it was first...
A sandwich structured substrate was designed for quantitative molecular detection using surface enha...
The rapid growth of pharmaceutical industries worldwide demands continuous development of efficient ...
One-dimensional arrays of silver nanoparticles with a particle size of 10.5 nm and interparticle spa...
ince the discovery of the enhanced Raman signals on a roughed metallic surface, the SERS technique h...
Surface-enhanced Raman scattering (SERS) from silver nanosculptured thin films (STF) was studied in ...
We introduce a simple but robust method to fabricate an ultrahigh-density array of silver nanocluste...
We introduce a simple but robust method to fabricate an ultrahigh-density array of silver nanocluste...
An atomically precise silver cluster, Ag<sub>152</sub> protected with thiolate ligands, was used as ...
ABSTRACT: An atomically precise silver cluster, Ag152 protected with thiolate ligands, was used as a...
Surface-enhanced Raman scattering (SERS) with enormous enhancements has shown great potential in sin...
Abstract: This presentation gives the fabrication and SERS activity of trigonal silver nanostructure...
Modified diamond thin film surfaces are proven candidates for bio-sensoric applications. A typical p...
Surface-enhanced Raman spectroscopy (SERS) is a very promising analytical technique for the detectio...
The optical properties of metallic Nanoparticles have a big scientific and technological importance....
Raman scattering has been one of the well known spectroscopic phenomena since 1928 when it was first...
A sandwich structured substrate was designed for quantitative molecular detection using surface enha...
The rapid growth of pharmaceutical industries worldwide demands continuous development of efficient ...
One-dimensional arrays of silver nanoparticles with a particle size of 10.5 nm and interparticle spa...
ince the discovery of the enhanced Raman signals on a roughed metallic surface, the SERS technique h...
Surface-enhanced Raman scattering (SERS) from silver nanosculptured thin films (STF) was studied in ...