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Effect of potential on temperature-dependent SERS spectra of neuromedin B on Cu electrode


Effect of potential on temperature-dependent SERS spectra of neuromedin B on Cu electrode

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dc.contributor.author Ignatjev, Ilja pl
dc.contributor.author Proniewicz, Edyta [SAP11017634] pl
dc.contributor.author Proniewicz, Leonard [SAP11008736] pl
dc.contributor.author Niaura, Gediminas pl
dc.date.accessioned 2015-05-20T07:29:36Z
dc.date.available 2015-05-20T07:29:36Z
dc.date.issued 2013 pl
dc.identifier.issn 1463-9076 pl
dc.identifier.uri http://ruj.uj.edu.pl/xmlui/handle/item/7494
dc.language eng pl
dc.title Effect of potential on temperature-dependent SERS spectra of neuromedin B on Cu electrode pl
dc.type JournalArticle pl
dc.description.physical 807-815 pl
dc.abstract.en Adsorption of decapeptide neuromedin B (NMB) on copper electrode has been investigated by in situ surface-enhanced Raman scattering (SERS) spectroelectrochemistry in the temperature interval from 12 to 72 1 Cat 0.600 and 1.000 V potentials. It was found that intensities of peptide bands decrease at temperatures above 30 1 C with higher decrease slope at 1.000 V. Frequency of F12 mode (1004 cm 1 ) of non-surface-interactive phenylalanine residue was found to be insensitive to temperature variation at both studied electrode potentials, while frequency–temperature curves for surface-interactive groups (Amide-III, methylene) were found to be controlled by the potential. In particular, opposite frequency–temperature trends were detected for Amide-III (Am-III) mode indicating decrease in H-bonding interaction strength of amide C Q O and N–H groups above 38 1 Cfor 0.600 V, and increase in H-bonding interaction strength between 12 and 72 1 Cfor 1.000 V. Anomalous Am-III temperature- dependence of the frequency at 1.000 V was explained by temperature-induced transformation of a disordered secondary structure to a helix-like conformation. The potential-difference spectrum revealed interaction of methylene groups with Cu surface at sufficiently negative potential values because of the appearance of a soft C–H stretching band near 2825 cm 1 and a broad band near 2904 cm 1 assigned to vibration of a distal C–H bond of the surface-confined methylene group. Consequently, a rapid decrease in frequency of CH 2 -stretching band with temperature was observed at 1.000 V, while no essential frequency changes were detected for this mode at 0.600 V. The results show that electrode potential controls the temperature-dependence of the frequency for vibrations associated with surface- interactive molecular groups pl
dc.description.volume 15 pl
dc.description.number 3 pl
dc.identifier.doi 10.1039/C2CP42077E pl
dc.identifier.eissn 1463-9084 pl
dc.title.journal Physical Chemistry Chemical Physics pl
dc.language.container eng pl
dc.affiliation Wydział Chemii : Zakład Fizyki Chemicznej pl
dc.subtype Article pl
dc.rights.original bez licencji pl
.pointsMNiSW [2013 A]: 35

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