Surface-enhanced Raman scattering used to study the structure of layers formed on metal surfaces from single-stranded DNA and 6-mercaptohexan-1-ol: influence of hybridization with the complementary DNA and influence of the metal substrate

Surface-enhanced Raman scattering used to study the structure of layers formed on metal surfaces from single-stranded DNA and 6-mercaptohexan-1-ol: influence of hybridization with the complementary DNA and influence of the metal substrate

Capture single-stranded DNA with an attached alkanethiol linking moiety (capture HS-ssDNA) and 6-mercaptohexan-1-ol were chemisorbed on nanostructured GaN covered with sputtered layers of plasmonic metals (like silver and gold). The structure of the formed layer was determined by surface-enhanced Ra...

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Veröffentlicht in:RSC advances 2022-12, Vol.12 (54), p.35192-35198
Hauptverfasser: Micha owska, Aleksandra, Gajda, Aleksandra, Kowalczyk, Agata, Weyher, Jan L, Nowicka, Anna M, Kudelski, Andrzej
Format: Artikel
Sprache:eng
Schlagworte:
Alkanes
Chains
Chemistry
Gold
Metal films
Metal surfaces
Molecular conformation
Nanomaterials
Raman spectra
Silver
Substrates
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container_end_page 35198
container_issue 54
container_start_page 35192
container_title RSC advances
container_volume 12
creator Micha owska, Aleksandra
Gajda, Aleksandra
Kowalczyk, Agata
Weyher, Jan L
Nowicka, Anna M
Kudelski, Andrzej
description Capture single-stranded DNA with an attached alkanethiol linking moiety (capture HS-ssDNA) and 6-mercaptohexan-1-ol were chemisorbed on nanostructured GaN covered with sputtered layers of plasmonic metals (like silver and gold). The structure of the formed layer was determined by surface-enhanced Raman scattering (SERS) measurements. Hybridization with the target ssDNA, complementary to the chains of immobilized capture HS-ssDNA, induced changes in the conformation of the chains of chemisorbed ω-substituted alkanetiols (6-mercaptohexan-1-ol and the alkanethiol linking moiety of HS-ssDNA). Such changes are significantly larger in the case of experiments on silver than on gold and gold/silver SERS substrates. This means that silver substrates are significantly more promising for the SERS observation of such hybridization-induced rearrangements than the gold substrates previously used. Although the sputtered metal films have a nanograin structure, the nanostructuring of the GaN substrates plays an important role in the SERS-activity of this nanomaterial. Hybridization-induced rearrangement of alkanethiolate chain forming linking moiety of ssDNA and a blocking layer is significantly larger for systems formed on silver substrates than on previously used gold surfaces.
doi_str_mv 10.1039/d2ra05318g
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subjects Alkanes
Chains
Chemistry
Gold
Metal films
Metal surfaces
Molecular conformation
Nanomaterials
Raman spectra
Silver
Substrates
title Surface-enhanced Raman scattering used to study the structure of layers formed on metal surfaces from single-stranded DNA and 6-mercaptohexan-1-ol: influence of hybridization with the complementary DNA and influence of the metal substrate
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