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Catalytic activity of choline modified Fe(III) montmorillonite
Abstract A series of mixed-cation organoclays, containing both Fe3+ and choline+ cations, were prepared using montmorillonite and tested for catalytic activity in three Fe3+-mediated reactions: the oxidative coupling of 2-naphthol, coupling of anthrone and a Lewis-acid catalysed indole conjugate addition. Clays with different Fe3+:choline+ ratios were required to achieve maximum catalytic activity in each reaction. For coupling of both 2-naphthol and anthrone, the most effective catalysts, as measured by the turnover frequency (TOF), were mixed Fe3+/choline+ clays of varying ratios, but the catalytic efficiency of Fe3+ montmorillonite in the conjugate addition of indole with methyl vinyl ketone decreased with the addition of choline+. This result could potentially be explained by the effect of choline+ decreasing the accessibility of Lewis acid domains. The results of this study provide proof that it is possible to tune mixed-cation clays with maximum catalytic activity in specific reaction types for specific substrates. Such mixed-cation organoclays offer advantages over traditional clay-based sorbents in environmental remediation applications, as they have the potential to bind organic contaminants selectively, via interaction with surface-exchanged organic cations, and neutralise organic molecules through catalytic exchange cations that are also present on the clay surface.
Catalytic activity of choline modified Fe(III) montmorillonite
Abstract A series of mixed-cation organoclays, containing both Fe3+ and choline+ cations, were prepared using montmorillonite and tested for catalytic activity in three Fe3+-mediated reactions: the oxidative coupling of 2-naphthol, coupling of anthrone and a Lewis-acid catalysed indole conjugate addition. Clays with different Fe3+:choline+ ratios were required to achieve maximum catalytic activity in each reaction. For coupling of both 2-naphthol and anthrone, the most effective catalysts, as measured by the turnover frequency (TOF), were mixed Fe3+/choline+ clays of varying ratios, but the catalytic efficiency of Fe3+ montmorillonite in the conjugate addition of indole with methyl vinyl ketone decreased with the addition of choline+. This result could potentially be explained by the effect of choline+ decreasing the accessibility of Lewis acid domains. The results of this study provide proof that it is possible to tune mixed-cation clays with maximum catalytic activity in specific reaction types for specific substrates. Such mixed-cation organoclays offer advantages over traditional clay-based sorbents in environmental remediation applications, as they have the potential to bind organic contaminants selectively, via interaction with surface-exchanged organic cations, and neutralise organic molecules through catalytic exchange cations that are also present on the clay surface.
Catalytic activity of choline modified Fe(III) montmorillonite
Wallis, Philip J. (author) / Gates, Will P. (author) / Patti, Antonio F. (author) / Scott, Janet L. (author)
Applied Clay Science ; 53 ; 336-340
2010-12-07
5 pages
Article (Journal)
Electronic Resource
English
Catalytic activity of choline modified Fe(III) montmorillonite
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