Flexible SERS substrates with filtering capabilities

摘要

A method for the formation of flexible surface enhanced Raman spectroscopy substrates with filtering capabilities. The method produces thin flexible substrates that have a nanoparticle ink deposited thereon. The nanoparticle ink may be any suitable nanoparticle ink which includes stabilized nanoparticles such as silver, gold or copper nanoparticles. The substrates and nanoparticle ink undergo a thermal treatment for an amount of time sufficient to remove liquid vehicle and a substantial portion of the stabilizer. The thermal treatment provides a fractal aggregate nanoparticle layer on the substrate suitable for Raman spectroscopy. Such flexible SERS substrates may be used to detect trace amounts of analyte in large volume samples.

主权项

1. A method for fabricating a flexible surface-enhanced Raman spectroscopy substrate comprising the steps of:
applying a nanoparticle ink to a flexible substrate having filtering capability for trapping an analyte of interest on said substrate during filtration of a media containing said analyte and comprising a material selected from glass fibers, cellulose fibers and polyimide fibers, and wherein the flexible substrate provides a three dimensional surface having multiple anchoring sites for an analyte molecule, and the nanoparticle ink comprises a liquid vehicle, a plurality of nanoparticles, and a stabilizer; heating the nanoparticle ink and the substrate to a suitable temperature for a period of time to remove the liquid vehicle and at least some of said stabilizer and form fractal aggregates of nanoparticles on the substrate, wherein said heating step is terminated when an amplification of Raman scattering signal of from about 1×103 to about 2.5×1010 is achieved relative to a Raman scattering signal of said flexible substrate in the absence of said nanoparticles.