2013
DOI: 10.1016/j.clay.2013.09.016
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Modification of montmorillonite with sodium sulfide for prebiotic chemistry studies: Characterization using spectroscopy methods and X-ray diffractometry

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Cited by 8 publications
(14 citation statements)
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“…For the adenine samples adsorbed on unmodified and modified montmorillonite at pH (2.00, 7.00) the band at 1,603 cm −1 shifted to 1,630 cm −1 (broad band) and in the region 1,672 cm −1 the band shifted to 1,700 cm −1 . Benetoli et al (2008) also obtained similar results with Carneiro et al (2011) and the pH of the solution, NCNAB=net charge of nucleic acid base was based on the pKa as described by Dawson et al (1986) and pH of the solution adenine adsorption on clays and interpreted their results as the interaction of protonated NH 2 + with clays resulting in the weakness of the C=N bond. However, StrašáK (1991) studied the adsorption of adenine on Cu 2+ -montmorillonite and attributed the band at 1,700 cm −1 to C=O stretching due a reaction of Cu 2+ -montmorillonite with adenine forming hypoxanthine.…”
Section: Discussionsupporting
confidence: 60%
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“…For the adenine samples adsorbed on unmodified and modified montmorillonite at pH (2.00, 7.00) the band at 1,603 cm −1 shifted to 1,630 cm −1 (broad band) and in the region 1,672 cm −1 the band shifted to 1,700 cm −1 . Benetoli et al (2008) also obtained similar results with Carneiro et al (2011) and the pH of the solution, NCNAB=net charge of nucleic acid base was based on the pKa as described by Dawson et al (1986) and pH of the solution adenine adsorption on clays and interpreted their results as the interaction of protonated NH 2 + with clays resulting in the weakness of the C=N bond. However, StrašáK (1991) studied the adsorption of adenine on Cu 2+ -montmorillonite and attributed the band at 1,700 cm −1 to C=O stretching due a reaction of Cu 2+ -montmorillonite with adenine forming hypoxanthine.…”
Section: Discussionsupporting
confidence: 60%
“…Thus, electrostatic forces between unmodified montmorillonite (negative) and nucleic acid bases (positive) increased adsorption at acidic pH. However, for modified montmorillonite the pH pzc was 5.26 (Carneiro et al 2011) and at pH 2.00 both montmorillonite and adenine and cytosine had positive net charge (Table 1). In this case electrostatic force could be not used to explain the higher adsorption of these nucleic acid bases in acidic pH.…”
Section: Discussionmentioning
confidence: 83%
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