SERS Performance Factor: A Convenient Parameter for the Enhancement Evaluation of SERS Substrates.

Surface-enhanced Raman spectroscopy (SERS), with molecular fingerprint information and single-molecule sensitivity, has been widely used for qualitative and quantitative analysis in various fields. Plenty of nanostructured plasmonic materials have been fabricated to achieve high SERS activity. Currently, great difficulty lies in evaluating the SERS performance among substrates, making it difficult to standardize.

Qualitative analysis of trace quinolone antibiotics by SERS with fine structure dependent sensitivity.

Antibiotics are widely used in daily life, which has created a global scenario where many pathogenic organisms have become effectively resistant to antibiotics. The abuse or overuse of antibiotics causes significant environmental pollution and even endangers human health. It is well-known that antibiotics' efficacy (toxicity) is determined by molecular structure.

Revealing the synergistic effect of capillary force and electrostatic attraction for D-SERS sensitivity.

To overcome the relative weak stability and reproducibility of solid substrates and the long no-signal duration before the short signal-on period of dynamic SERS (D-SERS) strategies, we introduced an electrostatic attraction between the molecule and the D-SERS substrate. The synergistic effect between capillary force and electrostatic attraction during D-SERS measurements improves the SERS sensitivity by 2-3 orders of magnitude compared to that for a solid SERS substrate prepared liquid-liquid interface self-assembly.