posted on 2017-11-30, 00:00authored byKevin Jacobs, Oluwatosin Dada, Pierre Negri, Zachary Schultz
The invention provides an apparatus and methods for label-free, chemical specific detection in flow for high throughput characterization of analytes in applications such as flow injection analysis, electrophoresis, and chromatography. A surface-enhanced Raman scattering (SERS) flow detector capable of ultrasensitive optical detection on the millisecond time scale has been developed. The device employs hydrodynamic focusing to improve SERS detection in a flow channel where a sheath flow confines analyte molecules eluted from a capillary over a planar SERS-active substrate. Increased analyte interactions with the SERS substrate significantly improve detection sensitivity. Raman experiments at different sheath flow rates showed increased sensitivity compared with the modeling predictions, indicating increased adsorption. At low analyte concentrations, rapid analyte desorption is observed, enabling repeated and high-throughput SERS detection. The flow detector offers substantial advantages over conventional SERS-based assays such as minimal sample volumes and high detection efficiency.