Abstract: This invention discloses an approach is improve the strength and reproducibility of the signal generated in FTAs using solid-phase microextraction (SPME) through the design of an approach to generate the plasmonically-enhanced signal for SERS, surface-enhanced infrared (SEIRA), and other enhanced spectroscopies. The design incorporates: (1) a particle-particle coupling strategy that is triggered by the selective capture of an analyte to a particle that has been immobilized on a membrane and has been modified to act as a capture substrate; (2) the selective tagging of the captured analyte by a nanoparticle also designed to generate an amplified plasmonic signal upon tagging; and (3) the incorporation of an internal nanoparticle standard to account for fluctuations in flow rates and flow paths.

Abstract: This invention discloses a design of microplates and microarrays to improve utility. The new design constructs a physical flux barrier that limits thermocapillary and other mass transfer contributions to the heterogeneous accumulation of reactant at the surface of a well or array address. The improved control of reactant delivery results in a much more uniform distribution of reactant across an address, thereby improving the accuracy of the measured response.