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Facile Microfluidic Fabrication of 3D Hydrogel SERS Substrate with High Reusability and Reproducibility via Programmable Maskless Flow Microlithography

Yoonkyung Shin, Inkyu Jeon, Younghoon You, Gwangho Song, Tae Kyung Lee, Jongwon Oh, Changil Son, Dahye Baek, Dowon Kim, Heesu Cho, Hyeri Hwang, Tae Young Kim, Sang Kyu Kwak, Jungwook Kim, Jiseok Lee

2020Advanced Optical Materials35 citationsDOI

Abstract

Abstract In the field of surface‐enhanced Raman scattering (SERS), advances in nanotechnology and surface chemistry have contributed to fabricating the metal substrates with highly sophisticated architectures and strong binding affinity to target molecules which enhanced the sensitivity to target molecules. However, the elaborate yet complicated steps for the synthesis, patterning, and surface modification of metal substrates have often resulted in compromising the reliability, reproducibility, and reusability as SERS substrates. Here, a fully programmable and automated digital maskless flow microlithography process that spatiotemporally controls the fluid flow, UV irradiation, and the shape and location of SERS polymer matrix is provided to fabricate a reliable, reproducible, and reusable hydrogel‐based 3D SERS substrate. The SERS substrates are located inside the microfluidic device in the form of disk‐shaped hydrogels. By rationally designing the functional group chemistry of the hydrogel microposts, Ag nanoparticles are homogeneously synthesized in situ, a target molecule is amplified by 25‐fold inside the microposts, and an enhancement factor as high as 2.4 × 10 8 is observed. Furthermore, a highly reusable multitarget sensing capability is demonstrated by a sequential analysis of multiple analytes without the trace of former analytes via the intermittent washing step.

Topics & Concepts

Materials scienceNanotechnologyMicrofluidicsReusabilitySubstrate (aquarium)AnalyteSelf-healing hydrogelsFabricationSurface modificationReproducibilityChemical engineeringComputer scienceChemistryMedicineOceanographySoftwareGeologyPhysical chemistryProgramming languageChromatographyEngineeringPathologyPolymer chemistryAlternative medicineGold and Silver Nanoparticles Synthesis and ApplicationsBiosensors and Analytical DetectionInnovative Microfluidic and Catalytic Techniques Innovation
Facile Microfluidic Fabrication of 3D Hydrogel SERS Substrate with High Reusability and Reproducibility via Programmable Maskless Flow Microlithography | Litcius