Projects per year
Description
Aluminosilicate zeolites are traditionally used in high-temperature applications at low water vapour pressures where the zeolite framework is generally considered to be stable and static. Increasingly, zeolites are being considered for applications under milder aqueous con-ditions. However, it has not yet been established how neutral liquid water at mild conditions affects the stability of the zeolite framework. Here, we show that covalent bonds in the zeolite chabazite (CHA) are labile when in contact with neutral liquid water, which leads to partial but fully reversible hydrolysis without framework degradation. We present ab initio calculations that predict novel, energetically viable reaction mechanisms by which Al-O and Si-O bonds rapidly and reversibly break at 300 K. By means of solid-state NMR, we confirm this predic-tion, demonstrating that isotopic substitution of 17O in the zeolitic framework occurs at room temperature in less than one hour of contact with enriched water.
Date made available | 2019 |
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Publisher | University of St Andrews |
Projects
- 2 Finished
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RS Wolfson Merit Award: Exploiting NMR spectroscopy: Local structure and disorder in solids
Ashbrook, S. E. (PI)
1/09/15 → 31/08/20
Project: Standard
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Research output
- 1 Article
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Fast room temperature lability of aluminosilicate zeolites
Heard, C. J., Grajciar, L., Rice, C. M., Pugh, S. M., Nachtigall, P., Ashbrook, S. E. & Morris, R. E., 16 Oct 2019, In: Nature Communications. 10, 7 p., 4690.Research output: Contribution to journal › Article › peer-review
Open AccessFile71 Citations (Scopus)5 Downloads (Pure)