Plasmonic hybrid core-shell (HyCoS) AgPt NP template hybridized with GQDs for SERS enhancement of 4-MBA and BT

Plasmonic hybrid core-shell (HyCoS) AgPt NP template hybridized with GQDs for SERS enhancement of 4-MBA and BT

Surface-enhanced Raman spectroscopy (SERS) is an attractive vibrational spectroscopic technique that can enable a non-destructive and ultra-sensitive detection down to the single-molecule level. Herein, a novel hybrid SERS platform is developed based on hybrid core-shell (HyCoS) AgPt nanoparticles (...

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Veröffentlicht in:Journal of alloys and compounds 2023-08, Vol.952, p.169952, Article 169952
Hauptverfasser: Lin, Shusen, Habib, Md Ahasan, Burse, Shalmali, Mandavkar, Rutuja, Joni, Mehedi Hasan, Kunwar, Sundar, Lee, Jihoon
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Sprache:eng
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Chemical mechanism (CM)
Electromagnetic mechanism (EM)
GQDs
HyCoS AgPt NPs
Localized surface plasmon resonance (LSPR)
MATERIALS SCIENCE
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container_issue
container_start_page 169952
container_title Journal of alloys and compounds
container_volume 952
creator Lin, Shusen
Habib, Md Ahasan
Burse, Shalmali
Mandavkar, Rutuja
Joni, Mehedi Hasan
Kunwar, Sundar
Lee, Jihoon
description Surface-enhanced Raman spectroscopy (SERS) is an attractive vibrational spectroscopic technique that can enable a non-destructive and ultra-sensitive detection down to the single-molecule level. Herein, a novel hybrid SERS platform is developed based on hybrid core-shell (HyCoS) AgPt nanoparticles (NPs) and graphene quantum dots (GQDs) for the enhancement of Raman vibration of 4-mercaptobenzoic acid (4-MBA) and benzenethiol (BT). The unique design of HyCoS AgPt NPs induces strong electromagnetic mechanism (EM) enhancement through the amplification of electromagnetic fields by the excitation of high-density surface plasmons and hot spots. Superior localized surface plasmon resonance (LSPR) is generated by the AgPt core-shell and background Ag NP coupling, which is systematically investigated by the optical properties and FDTD simulations. The background Ag NPs can further increase the coverage of metallic NPs, leading to higher-density hot spots and enhanced SERS response. At the same time, GQDs can provide plentiful accessible edges for the charge transfer to the HOMO and LUMO of 4-MBA and BT based on the chemical mechanism (CM) enhancement. The mixing approach of GQDs and target molecules on the HyCoS AgPt NPs can significantly amplify the Raman signals via the strong adsorption of probe molecules by the π – π interaction. The enhancement factors of proposed SERS platform can reach ∼107 and ∼105 for the 4-MBA and BT respectively. [Display omitted] •Demonstration of orders of SERS enhancement for 4-MBA and BT.•Demonstration of hybrid SERS platform by incorporating HyCoS AgPt NP and GQDs.•Demonstration of FDTD simulations of various alloy NPs and hybrid configurations.•Demonstration of SERS enhancement based on the probe molecule concentration and mixture ratio with the GQDs.
doi_str_mv 10.1016/j.jallcom.2023.169952
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Herein, a novel hybrid SERS platform is developed based on hybrid core-shell (HyCoS) AgPt nanoparticles (NPs) and graphene quantum dots (GQDs) for the enhancement of Raman vibration of 4-mercaptobenzoic acid (4-MBA) and benzenethiol (BT). The unique design of HyCoS AgPt NPs induces strong electromagnetic mechanism (EM) enhancement through the amplification of electromagnetic fields by the excitation of high-density surface plasmons and hot spots. Superior localized surface plasmon resonance (LSPR) is generated by the AgPt core-shell and background Ag NP coupling, which is systematically investigated by the optical properties and FDTD simulations. The background Ag NPs can further increase the coverage of metallic NPs, leading to higher-density hot spots and enhanced SERS response. At the same time, GQDs can provide plentiful accessible edges for the charge transfer to the HOMO and LUMO of 4-MBA and BT based on the chemical mechanism (CM) enhancement. The mixing approach of GQDs and target molecules on the HyCoS AgPt NPs can significantly amplify the Raman signals via the strong adsorption of probe molecules by the π – π interaction. The enhancement factors of proposed SERS platform can reach ∼107 and ∼105 for the 4-MBA and BT respectively. 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The mixing approach of GQDs and target molecules on the HyCoS AgPt NPs can significantly amplify the Raman signals via the strong adsorption of probe molecules by the π – π interaction. The enhancement factors of proposed SERS platform can reach ∼107 and ∼105 for the 4-MBA and BT respectively. 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subjects Chemical mechanism (CM)
Electromagnetic mechanism (EM)
GQDs
HyCoS AgPt NPs
Localized surface plasmon resonance (LSPR)
MATERIALS SCIENCE
title Plasmonic hybrid core-shell (HyCoS) AgPt NP template hybridized with GQDs for SERS enhancement of 4-MBA and BT
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