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ISSN electronic edition: 1336-9075
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Design of high-active SERS in 2D Au/TiO2 thin film for quantitative and photodegraded analysis

Ton Nu Quynh Trang, Nguyen Tran Gia Bao, Thai Duong, and Vu Thi Hanh Thu

Faculty of Physics and Physics Engineering, University of Science, Ho Chi Minh City, Vietnam

 

E-mail: vththu@hcmus.edu.vn

Received: 2 April 2024  Accepted: 12 June 2024

Abstract:

Surface-enhanced Raman scattering (SERS) is a highly sensitive and non-destructive analytical technique that has attracted considerable interest in the scientific community. However, the practical application of SERS substrates has been hindered by the limited presence of active hotspots. In this study, we present an approach utilizing a TiO2 thin film decorated with Au nanoparticles (NPs) as a SERS platform. The Au/TiO2 hybrid thin film provides the sensor with exceptional sensitivity and remarkable photocatalytic properties for the photodecomposition of target molecules. Consequently, the optimized Au/TiO2 substrate exhibits a detection limit of 10–10 M for crystal violet (CV) molecules along with a significant enhancement factor of 1.94 × 108 and reliable repeatability. Additionally, it demonstrates a retention rate of 90% after three photodegradation cycles, highlighting its impressive reusability. Over a period of 45 days, the SERS intensity shows only a slight decrease of approximately 10%, underscoring its robust stability. The superior performance of our hybrid sample can be attributed to two primary benefits: the plasmonic effect of the Au NPs, which significantly enhances SERS sensitivity, and the charge-transfer (CT) effect, which enables facilitating efficient self-cleaning through the photocatalytic degradation of the TiO2 thin film under ultraviolet light exposure. This study not only offers insights into the synergistic effects of the electromagnetic enhancement and CT for recyclable SERS, but also opens up new avenues for studying photocatalysis involving dye molecules and monitoring catalytic processes.

Keywords: SERS; Au; TiO2; Sputtering method; Self-cleaning ability

Full paper is available at www.springerlink.com.

DOI: 10.1007/s11696-024-03563-7

 

Chemical Papers 78 (11) 6649–6661 (2024)

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