Advanced SERS sensor based on capillarity-assisted preconcentration through gold nanoparticles-decorated porous nanorods
Longjian Xue, Wei Xie, Leonie Driessen, Katrin F. Domke, Yong Wang,, Sebastian Schl\"ucker, Stanislav N. Gorb, Martin Steinhart

TL;DR
This paper introduces a novel SERS sensor utilizing capillarity-assisted preconcentration with gold nanoparticle-decorated porous nanorods, enabling rapid and sensitive detection of analytes in liquids without prior collection.
Contribution
It presents a new SERS sensor design that combines nanorod architecture and capillarity-driven preconcentration for enhanced detection of liquid analytes.
Findings
Detects model analyte in 300 ms
Achieves sensitivity of 0.1 ppm
Operates without analyte collection
Abstract
A preconcentrating surface-enhanced Raman scattering (SERS) sensor for the analysis of liquid-soaked tissue, tiny liquid droplets and thin liquid films without the necessity to collect the analyte is reported. The SERS sensor is based on a blockcopolymer membrane containing a spongy-continuous pore system. The sensor's upper side is an array of porous nanorods having tips functionalized with Au nanoparticles. Capillarity in combination with directional evaporation drives the analyte solution in contact with the flat yet nanoporous underside of the SERS sensor through the continuous nanopore system toward the nanorod tips where non-volatile components of the analyte solution precipitate at the Au nanoparticles. The nanorod architecture increases the sensor surface in the detection volume and facilitates analyte preconcentration driven by directional solvent evaporation. The model analyte…
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