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Microfluidic SERS biosensor based on Au-semicoated photonic crystals for melanoma diagnosis

Weian Wang, Wangqi Mao, Hao Sun, Feiyang Hou, Wan-Yu Wang, Wei Liu, Zengliang Shi, Gungun Lin, Mingliang Wang, Guocheng Fang, Yuen Yee Cheng, Chunxiang Xu

2024Biosensors and Bioelectronics17 citationsDOIOpen Access PDF

Abstract

Surface-enhanced Raman scattering (SERS) shows great promise for early diagnosis due to its high specificity and rapid detection capabilities. However, its application is often hindered by substrate instability and insufficient interaction between the substrate and incident light. To address these challenges, a photonic-plasmonic strategy is often employed to enhance sensing performance but it is generally limited by the low efficiency of plasmonic metal and optical cavity resonances. In this study, we significantly improved resonance efficiency by optimizing the photonic crystal configuration and designing Au-semicoated polystyrene nanospheres. These modifications maximized light capture and resonance efficiency, resulting in a 790-fold enhancement of the Raman signal with a relative standard deviation of only 4.58%. This approach was further developed into microfluidic biosensors for melanoma diagnosis, achieving a 2-3 order-of-magnitude improvement over comparable SERS biosensors. We believe this technology has the potential to significantly improve the efficiency of early diagnosis and clinical medical analysis.

Topics & Concepts

BiosensorNanotechnologyMicrofluidicsMaterials sciencePhotonic crystalPhotonicsChemistryOptoelectronicsGold and Silver Nanoparticles Synthesis and ApplicationsAdvanced biosensing and bioanalysis techniquesPlasmonic and Surface Plasmon Research
Microfluidic SERS biosensor based on Au-semicoated photonic crystals for melanoma diagnosis | Litcius