Vibrational Study (Raman, SERS, and IR) of Plant Gallnut Polyphenols Related to the Fabrication of Iron Gall Inks

Espina, Alba; Sánchez-Cortés, Santiago; Jurasekova, Z.

doi:10.3390/molecules27010279

Cited by 38 publications

(22 citation statements)

References 69 publications

(89 reference statements)

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“…In a previous work, the vibrational characterization of these four molecules was performed. 30 UV–vis absorption spectroscopy was also employed to follow the changes in color and perform an analysis of the metal–ligand interaction. This investigation was conducted by measuring the Raman and UV–vis absorption spectra of these polyphenols at different conditions: in solution and deposited on paper, at different pH, and evaluating the effect of the pH, aging, and stoichiometric proportions between iron and polyphenols.…”

Section: Introductionmentioning

confidence: 99%

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Analysis of Iron Complexes of Tannic Acid and Other Related Polyphenols as Revealed by Spectroscopic Techniques: Implications in the Identification and Characterization of Iron Gall Inks in Historical Manuscripts

et al. 2022

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In this work, a structural analysis of the polyphenol complexes with iron and copper at several conditions is reported. The investigated polyphenols were tannic acid, gallic acid, pyrogallol, and syringic acid, being components and molecular models of the gallnuts usually employed in the past in fabrication of iron gall inks (IGIs). Commercial tannic acid extracted from gallnuts, which is a complex mixture of different gallotannins and simpler galloylglucoses, was also employed in this analysis. This analysis comprised the use of Raman, Fourier-transform infrared (FTIR), UV–vis absorption, and fluorescence spectroscopy. The complexation of iron with these molecules leads to a strong change in color due to the deep restructuring of the polyphenol that can be clearly seen by Raman and FTIR spectra. Three main Raman bands appeared at 1450–1490 cm –1 (ν 1 ), 1320–1345 cm –1 (ν 2 ), and 400–650 cm –1 (ν 3 ), which are characteristic of the metal complexes. The structural changes of the polyphenol complexes with iron were also investigated at different pHs and different polyphenol/iron stoichiometries. Other effects of the interaction of polyphenols with iron are the pH decrease of the mixture upon metal complexation and fluorescence quenching induced by the interaction of iron. This quenching is important since it facilitates the Raman inspection of manuscripts since polyphenols show a strong fluorescence emission that overlaps the Raman spectrum. Furthermore, DFT calculations were performed for the first time on the gallic acid complex with iron in order to elaborate a detailed assignment of the vibrational modes of polyphenols and their metal complexes, something that was missed in previous applications of Raman to IGIs.

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Section: Introductionmentioning

confidence: 99%

“…In a previous work, the vibrational characterization of these four molecules was performed . UV–vis absorption spectroscopy was also employed to follow the changes in color and perform an analysis of the metal–ligand interaction.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Iron Complexes of Tannic Acid and Other Related Polyphenols as Revealed by Spectroscopic Techniques: Implications in the Identification and Characterization of Iron Gall Inks in Historical Manuscripts

et al. 2022

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“…The article by Espina et al focused on using different spectroscopic methods (Raman, SERS, and IR) in order to differentiate structurally related gallnut polyphenols tannic acid, gallic acid, pyrogallol, and syringic acid, components in iron gall inks [ 419 ]. The different functional groups existing in these molecules and their spatial distribution led to slight changes in their spectra.…”

Section: Forensic Document Examinationmentioning

confidence: 99%

Interpol questioned documents review 2019–2022

Deviterne-Lapeyre

Ibrahim²

2023

Forensic Science International: Synergy

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“…Change (from com to ml, shift, and/or intensity) Assignment Reference 823 Decrease g(CO 2 ), histidine solid, isoleucine solid, valine solid/equatorial anomeric H (a-anomers and a-glycosides) (Synytsya et al, 2003;Zhu et al, 2011) 849 850 -decrease Cg-twist, Cϵ-wag, Cb-wag, lysine solution, tryptophan solid/Me-Pec (Synytsya et al, 2003;Zhu et al, 2011) 864 Decrease g(CH), gallic acid (Espina et al, 2022) 1,137 Increase C-N and C-O stretching, valine solution (Fasman et al, 1978;Zhu et al, 2011) 1,153 1,150 -increase Skeletal C-O and C-C vibration, glycosidic bonds and pyranoid ring, acetylated pectates (Synytsya et al, 2003) 1,188 1,185 -increase n(C-O-H) next to aromatic ring + s (CH), carotenoids/phenylalanine solid (Zhu et al, 2011;Morey et al, 2021) 1,224 1,222 n(C-N) + C-C + d(C-H), histidine solid (Mesu et al, 2005;Zhu et al, 2011) 1,241 Decrease d(CH), n(ring), n(CO), pyrogallol (Espina et al, 2022) 1,374 1,377 dsym(CH3(CO)), 1,8-cineol (Schulz and Baransca, 2007) 1,437 1,434 d(CH2), a-bisabolol/tyrosine solid (Schulz and Baransca, 2007;Zhu et al, 2011) 1,443 Decrease n(ring), d(OH), gallic acid/arginine solid, histidine solution (Zhu et al, 2011;Espina et al, 2022) 1,491 Decrease Aromatic ring stretch, asymmetric, lignin (Agarwal and Reiner, 2009) 1,516 1,519 -increase n(ring), d(C-OH), d(CH)/b-carotene/glycine solid (Zhu et al, 2011;Jehlic ̌ka et al, 2014;Espina et al, 2022) 1,582 Decrease Stretching vibrations of CO 2 − , isoleucine solid, leucine solid (Zhu et al, 2011) 1,630 Decrease Aromatic and aliphatic -C=C-, C=O stretching, benzene ring/serine solid (Schulz and Baransca, 2007;Zhu et al, 2011) 1,668 Decrease n(0,0), collagen solid, amide-I (Fermandjian et al, 1972;Zhu et al, 2011) 1,697 Decrease CO stretching (Schulz and Baransca, 2007) defense system in plants has emerged as a frequently preferred breeding criterion in recent years (Chen al., 2011;…”

Section: Peakmentioning

confidence: 99%

Differentiation of advanced generation mutant wheat lines: Conventional techniques versus Raman spectroscopy

et al. 2023

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This research aimed to assess the feasibility of utilizing Raman spectroscopy in plant breeding programs. For this purpose, the evaluation of the mutant populations set up the application of 4 mM NaN3 to the somatic embryos obtained from mature wheat (Triticum aestivum L. Adana-99 cv.) embryos. Advanced wheat mutant lines, which were brought up to the seventh generation with salt stress tolerance by following in vitro and in vivo environments constructed by mutated populations, were evaluated using conventional techniques [measurement of antioxidant enzyme activities (SOD, CAT, and POX), total chlorophyll, TBARS, and proline contents; measurement of the concentration of Na+ and K+ ions; and evaluation of gene expression by qPCR (TaHKT2;1, TaHKT1;5, TaSOS1, TaNa+/H+ vacuolar antiporter, TaV-PPase, TaV-ATPase, and TaP5CS)] and Raman spectroscopy. In this research, no significant difference was found in the increase of SOD, CAT, and POX antioxidant enzyme activities between the salt-treated and untreated experimental groups of the commercial cultivar, while there was a statistically significant increase in salt-treated advanced generation mutant lines as compared to control and the salt-treated commercial cultivar. Proline showed a statistically significant increase in all experimental groups compared to the untreated commercial cultivar. The degradation in the amount of chlorophyll was lower in the salt-treated advanced generation mutant lines than in the salt-treated commercial cultivar. According to gene expression studies, there were statistical differences at various levels in terms of Na+ and/or K+ uptake from soil to plant (TaHKT2;1, TaHKT1;5, and TaSOS1), and Na+ compartmentalizes into the cell vacuole (TaNa+/H+ vacuolar antiporter, Ta vacuolar pyrophosphatase, and Ta vacuolar H+-ATPase). The expression activity of TaP5CS, which is responsible for the transcription of proline, is similar to the content of proline in the current study. As a result of Raman spectroscopy, the differences in peaks represent the protein-related bands in mutant lines having a general decreasing trend in intensity when compared to the commercial cultivar. Amide-I (1,630 and 1,668 cm−1), Histidine, Lysine, Arginine, and Leucine bands (823, 849, 1,241, 1,443, and 1,582 cm−1) showed decreasing wavenumbers. Beta-carotene peaks at 1,153 and 1,519 cm−1 showed increasing trends when the normalized Raman intensities of the mutant lines were compared.

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Vibrational Study (Raman, SERS, and IR) of Plant Gallnut Polyphenols Related to the Fabrication of Iron Gall Inks

Cited by 38 publications

References 69 publications

Analysis of Iron Complexes of Tannic Acid and Other Related Polyphenols as Revealed by Spectroscopic Techniques: Implications in the Identification and Characterization of Iron Gall Inks in Historical Manuscripts

Analysis of Iron Complexes of Tannic Acid and Other Related Polyphenols as Revealed by Spectroscopic Techniques: Implications in the Identification and Characterization of Iron Gall Inks in Historical Manuscripts

Interpol questioned documents review 2019–2022

Differentiation of advanced generation mutant wheat lines: Conventional techniques versus Raman spectroscopy

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