Aboorh, A. M. A., Ertekin, Z. , Dugmore, S., Wilson, C. , Sproules, S. and Symes, M. (2026) Preparation, characterization and hydrogenation activity of multiply-reduced silicotungstic acid. [Data Collection]

Collection description

Silicotungstic acid (H4SiW12O40) demonstrates some fascinating reversible redox behavior that in recent years has been exploited both for decoupled electrolysis and for the selective hydrogenation of nitroarenes to their aniline derivatives without the need to use hydrogen gas or precious metal catalysts. Specifically, silicotungstic acid can be reduced electrochemically to its two-electron reduced form (H6SiW12O40), which displays good stability and which can be induced to cycle multiple times between H6SiW12O40 and H4SiW12O40 on account of its reversible reduction and re-oxidation. In contrast, studies on more deeply-reduced states of silicotungstic acid are rarely addressed in the literature, although the potential for developing more powerful, yet still selective, hydrogenation agents if more deeply-reduced states could be accessed reliably offers an incentive to explore their formation. Herein, we report the controlled and reproducible formation of silicotungstic acid in its previously uncharacterized four-electron reduced form by judicious selection of electrochemical reduction parameters. We obtain and compare the crystal structures of two- and four-electron reduced silicotungstic acid for the first time and show that four-electron reduced silicotungstic acid is indeed a more effective hydrogenation agent for the reduction of 4-cyanobenzaldehyde and 4-(trifluoromethyl)benzaldehyde than the two-electron reduced form. Our results suggest that careful optimization of reduction conditions can allow polyoxometalates in oxidation states hitherto considered rather exotic to be produced reliably, and subsequently deployed to produce reaction outcomes that are demonstrably different from those occasioned by their less-reduced analogues.

Funding:	The Royal Society (ROYSOC) [URF\R\211007] Engineering and Physical Sciences Research Council (EPSRC) [EP/W033135/1]
Keywords:	Polyoxometalate; redox mediator; hydrogenation; silicotungstic acid
College / School:	College of Science and Engineering > School of Chemistry > Chemistry
Date Deposited:	15 Jun 2026 15:56
URI:	https://researchdata.gla.ac.uk/id/eprint/2300
Additional details Additional details Type of data: Spreadsheet Collection period: From To July 2024 May 2026 Date: 9 June 2026 Resource language: English Data Publisher: University of Glasgow Copyright holders: University of Glasgow Last Modified: 15 Jun 2026 15:56

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