Quantitative Surface-Enhanced Spectroscopy

Abstract: Surface-enhanced Raman scattering (SERS), a powerful technique for trace molecular detection, depends on chemical and electromagnetic enhancements. While recent advances in instrumentation and substrate design have expanded the utility, reproducibility, and quantitative capabilities of SERS, some challenges persist. In this review, advances in quantitative SERS detection are discussed as they relate to intermolecular interactions, surface selection rules, and target molecule solubility and accessibility. After… Show more

“…We infer that the variation is caused by the chemical complexity of the serum, and the fact that a few molecules located in the tiny hot spots contribute to most of the signal response in SERS. 42 To this end, multiple spectra per sample were measured with three replicates for each serum. Fig.…”

Serum fingerprinting by slippery liquid-infused porous SERS for non-invasive lung cancer detection

“…We infer that the variation is caused by the chemical complexity of the serum, and the fact that a few molecules located in the tiny hot spots contribute to most of the signal response in SERS. 42 To this end, multiple spectra per sample were measured with three replicates for each serum. Fig.…”

Serum fingerprinting by slippery liquid-infused porous SERS for non-invasive lung cancer detection

“…Finally, while there is some discussion in the field as to the reproducibility of SERS for generating quantitative data from target analytes in mixtures, there are several excellent reviews have highlighted the use of internal standards that can be used to compensate for any variations due to concentration of analytes-nanoparticles and laser power within the system. 30,[56][57][58] These strategies have been used within clinical sciences and the interested reader will find details within these reviews.…”

Rapid detection and quantification of paracetamol and its major metabolites using surface enhanced Raman scattering

“…The Raman scattering intensity of molecules adsorbed on the surface of precious metals such as Au and Ag is enhanced by several orders of magnitude, and this phenomenon is called surface-enhanced Raman scattering (SERS). 778 Throughout the nearly 50-year development of this technique, substrates for SERS have usually been irregularly shaped colloidal nanoparticles, including nanostars, nanorods, nanocubes, and heterojunctions of noble metals. 779 However, these colloidal nanoparticles have potential aggregation problems, which can usually be circumvented by embedding the particles in porous materials such as COFs.…”

Metalated covalent organic frameworks: from synthetic strategies to diverse applications