Highly stable and active SERS substrates with Ag-Ti alloy nanorods

Silver (Ag) nanostructures have been intensively studied as one of the most promising surface-enhanced Raman scattering (SERS) substrates; however, their practical applications have been limited by the chemical instability with regard to oxidation, sulfuration and etching of Ag. Therefore, designing...

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Veröffentlicht in:	Nanoscale 2018-11, Vol.1 (42), p.19863-1987
Hauptverfasser:	Liu, Yuehua, Wu, Hui, Ma, Lingwei, Zou, Sumeng, Ling, Yunhan, Zhang, Zhengjun
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemical activity Nanorods Nanostructure Organic chemistry Oxidation Raman spectra Silver Stability Substrates Titanium base alloys
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container_end_page	1987
container_issue	42
container_start_page	19863
container_title	Nanoscale
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creator	Liu, Yuehua Wu, Hui Ma, Lingwei Zou, Sumeng Ling, Yunhan Zhang, Zhengjun
description	Silver (Ag) nanostructures have been intensively studied as one of the most promising surface-enhanced Raman scattering (SERS) substrates; however, their practical applications have been limited by the chemical instability with regard to oxidation, sulfuration and etching of Ag. Therefore, designing and fabricating highly active Ag nanostructures with high SERS stability has been recognized as an important research area. Herein, Ag-Ti alloy nanorods (Ag-Ti alloy NRs) are designed and fabricated by the oblique angle deposition (OAD) method to protect Ag. Taking advantage of the higher chemical activity of Ti compared with Ag, Ti can be sacrificed against oxidation and corrosion, protecting Ag in harsh environments, further ensuring long-term stability of the SERS substrates. It is demonstrated that a 2% Ti (in atoms) substrate possesses extremely high SERS sensitivity, and is stable both in air for more than 1 month and in 10 mM HNO 3 solution for 1 hour. The alloy nanostructure provides a new opportunity to achieve highly sensitive and highly stable SERS substrates. Ag-Ti alloy nanorods are designed and fabricated. Taking advantage of the higher chemical activity of Ti compared with Ag, Ti can be sacrificed against oxidation and corrosion, protecting Ag in harsh environments, further ensuring long-term stability of the SERS substrates.
doi_str_mv	10.1039/c8nr07138a
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Therefore, designing and fabricating highly active Ag nanostructures with high SERS stability has been recognized as an important research area. Herein, Ag-Ti alloy nanorods (Ag-Ti alloy NRs) are designed and fabricated by the oblique angle deposition (OAD) method to protect Ag. Taking advantage of the higher chemical activity of Ti compared with Ag, Ti can be sacrificed against oxidation and corrosion, protecting Ag in harsh environments, further ensuring long-term stability of the SERS substrates. It is demonstrated that a 2% Ti (in atoms) substrate possesses extremely high SERS sensitivity, and is stable both in air for more than 1 month and in 10 mM HNO 3 solution for 1 hour. The alloy nanostructure provides a new opportunity to achieve highly sensitive and highly stable SERS substrates. Ag-Ti alloy nanorods are designed and fabricated. 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subjects	Chemical activity Nanorods Nanostructure Organic chemistry Oxidation Raman spectra Silver Stability Substrates Titanium base alloys
title	Highly stable and active SERS substrates with Ag-Ti alloy nanorods
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