Fabrication of SERS substrates by femtosecond LIPAA for detection of contaminants in foods

•Femtosecond LIPAA is used to fabricate SERS substrates.•An environmentally friendly method is proposed to fabricate SERS substrates.•The size distribution of silicon nanoparticles can be well tuned by tuning laser fluence.•Detection limits of melamine in milk liquid and ciprofloxacin in water are b...

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Veröffentlicht in:	Optics and laser technology 2022-07, Vol.151, p.107954, Article 107954
Hauptverfasser:	Xu, Lingmao, Liu, Huagang, Chua, Tze Chong, Hong, Minghui, Zhou, Hui
Format:	Artikel
Sprache:	eng
Schlagworte:	Ciprofloxacin Contaminants Femtosecond LIPAA Fluence Glass substrates Health hazards Laser ablation Laser plasmas Lasers Melamine Nanoparticles Rapid detection SERS Silver
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container_title	Optics and laser technology
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creator	Xu, Lingmao Liu, Huagang Chua, Tze Chong Hong, Minghui Zhou, Hui
description	•Femtosecond LIPAA is used to fabricate SERS substrates.•An environmentally friendly method is proposed to fabricate SERS substrates.•The size distribution of silicon nanoparticles can be well tuned by tuning laser fluence.•Detection limits of melamine in milk liquid and ciprofloxacin in water are both 1 ppm. Rapid and sensitive detection of contaminants in foods is crucial for minimizing potential health hazards to humans. In this work, we developed a SERS substrate fabricated by femtosecond laser induced plasma assisted ablation (fs LIPAA) for food contaminants detection. By tuning laser fluence, the distribution and size of silicon nanoparticles generated by fs LIPAA are studied. Hotspots with high uniformity can be created for SERS functionalization by decorating the substrate with a layer of silver film. It is found that the SERS performance is well optimized at a laser fluence of 5 J/cm2. The proposed Ag NPs/glass SERS substrate shows good uniformity with an enhancement factor of 2 × 105 via R6G Raman probe as compared to a traditional smooth Ag film. The detection limits of melamine in milk liquid and ciprofloxacin in water are both 1 ppm. The results demonstrate great potential to pave a new way to realize the use of SERS substrates in food safety.
doi_str_mv	10.1016/j.optlastec.2022.107954
format	Article
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Rapid and sensitive detection of contaminants in foods is crucial for minimizing potential health hazards to humans. In this work, we developed a SERS substrate fabricated by femtosecond laser induced plasma assisted ablation (fs LIPAA) for food contaminants detection. By tuning laser fluence, the distribution and size of silicon nanoparticles generated by fs LIPAA are studied. Hotspots with high uniformity can be created for SERS functionalization by decorating the substrate with a layer of silver film. It is found that the SERS performance is well optimized at a laser fluence of 5 J/cm2. The proposed Ag NPs/glass SERS substrate shows good uniformity with an enhancement factor of 2 × 105 via R6G Raman probe as compared to a traditional smooth Ag film. The detection limits of melamine in milk liquid and ciprofloxacin in water are both 1 ppm. 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Rapid and sensitive detection of contaminants in foods is crucial for minimizing potential health hazards to humans. In this work, we developed a SERS substrate fabricated by femtosecond laser induced plasma assisted ablation (fs LIPAA) for food contaminants detection. By tuning laser fluence, the distribution and size of silicon nanoparticles generated by fs LIPAA are studied. Hotspots with high uniformity can be created for SERS functionalization by decorating the substrate with a layer of silver film. It is found that the SERS performance is well optimized at a laser fluence of 5 J/cm2. The proposed Ag NPs/glass SERS substrate shows good uniformity with an enhancement factor of 2 × 105 via R6G Raman probe as compared to a traditional smooth Ag film. The detection limits of melamine in milk liquid and ciprofloxacin in water are both 1 ppm. 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Rapid and sensitive detection of contaminants in foods is crucial for minimizing potential health hazards to humans. In this work, we developed a SERS substrate fabricated by femtosecond laser induced plasma assisted ablation (fs LIPAA) for food contaminants detection. By tuning laser fluence, the distribution and size of silicon nanoparticles generated by fs LIPAA are studied. Hotspots with high uniformity can be created for SERS functionalization by decorating the substrate with a layer of silver film. It is found that the SERS performance is well optimized at a laser fluence of 5 J/cm2. The proposed Ag NPs/glass SERS substrate shows good uniformity with an enhancement factor of 2 × 105 via R6G Raman probe as compared to a traditional smooth Ag film. The detection limits of melamine in milk liquid and ciprofloxacin in water are both 1 ppm. 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subjects	Ciprofloxacin Contaminants Femtosecond LIPAA Fluence Glass substrates Health hazards Laser ablation Laser plasmas Lasers Melamine Nanoparticles Rapid detection SERS Silver
title	Fabrication of SERS substrates by femtosecond LIPAA for detection of contaminants in foods
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