Fabrication of a honeycomb-like bimetallic SERS substrate for the detection of triphenyltin chloride

Triphenyltin chloride (TPhT) is an organotin compound that causes intensive toxicological risk to the environment and humans. A detection method with high sensitivity and stability is therefore desired to better detect TPhT. In this study, a novel SERS substrate was prepared by sputtering an ultra-t...

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Bibliographic Details
Published in:Analyst (London) 2021-10, Vol.146 (2), p.617-6177
Main Authors: Jiang, Shan, Chang, Lin, Luo, Jie, Zhang, Jianfa, Liu, Xiaohong, Lee, Chong-Yew, Zhang, Wei
Format: Article
Language:English
Subjects:
Bimetals
Chlorides
Density functional theory
Gold
Nanoparticles
Nanospheres
Organotin compounds
Pollutants
Pollution monitoring
Rhodamine 6G
Sensitivity
Silver
Sputtering
Stability
Substrates
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Summary:Triphenyltin chloride (TPhT) is an organotin compound that causes intensive toxicological risk to the environment and humans. A detection method with high sensitivity and stability is therefore desired to better detect TPhT. In this study, a novel SERS substrate was prepared by sputtering an ultra-thin Au layer on a honeycomb-like silver nanoarray fabricated via the nanosphere lithography method. The ultra-thin Au layer was formed by sputtering the intermittent Au nanoparticles on the silver nanoarray, resulting in bimetallic coupling with dramatically increased hotspots and extremely high SERS enhancement with an analytical enhancement factor (AEF) of 6.08 × 10 9 using Rhodamine 6G (R6G) as the probe molecule. Based on density functional theory (DFT) simulations, the Raman characteristic peaks of TPhT at 999 cm −1 and 655 cm −1 were selected for TPhT detection. The AEF of the SERS substrate HC5-AgAu was calculated to be 3.38 × 10 6 with the detection concentration of TPhT down to 10 −10 M. The as-prepared honeycomb-like silver-gold bimetallic SERS substrate demonstrated great stability and sensitivity for TPhT detection, which might also be applied in monitoring many other environmental pollutants. We fabricated a novel honeycomb-like bimetallic SERS substrate. It demonstrates extremely strong SERS enhanced performance owing to its bimetallic electromagnetic field coupling, which enables the high-sensitivity detection of TPhT.
ISSN:0003-2654
1364-5528
DOI:10.1039/d1an01359a