Insights into zeolite behaviour from the rigid unit mode model
- 1 May 1997
- journal article
- research article
- Published by Taylor & Francis in Phase Transitions
- Vol. 61 (1-4) , 155-172
- https://doi.org/10.1080/01411599708223735
Abstract
Kinetic processes in zeolites are heavily affected by the inherent flexibility of the underlying frameworks that zeolitic materials are composed of. Such frameworks support vibrational modes that propagate through crystals without distorting the constituent tetrahedra at all, these being “Rigid Unit Modes” (RUMs). Zeolites are unusual in that they support such modes at all possible wave vectors k. This means that “local RUMs” can be formed from the continuum of Bloch (non-local) RUMs. A local RUM can give rise to a localised, non-periodic, distortion in a framework that costs very little energy. These distortions enable molecules to diffuse through a framework more easily, and provide better binding sites for adsorbed ions. In particular local RUMs enable ions and molecules to change the environment of their cages to give more favourable conditions where effective catalysis can occur. Local RUMs also enable one to discover which parts of a framework are most flexible and hence more likely to be catalytically active.Keywords
This publication has 11 references indexed in Scilit:
- Rigid-unit phonon modes and structural phase transitions in framework silicatesAmerican Mineralogist: Journal of Earth and Planetary Materials, 1996
- Distortions of framework structuresPhase Transitions, 1996
- A high-silica zeolite with a 14-tetrahedral-atom pore openingNature, 1996
- Methanol Adsorption in ZeolitesA First-Principles StudyThe Journal of Physical Chemistry, 1996
- Rigid unit modes in framework silicatesMineralogical Magazine, 1995
- Electronic structure approach for complex silicasPhysical Review B, 1995
- The determination of rigid-unit modes as potential soft modes for displacive phase transitions in framework crystal structuresActa Crystallographica Section A Foundations of Crystallography, 1993
- A study of cation environment and movement during dehydration and reduction of nickel-exchanged zeolite Y by x-ray absorption and diffractionThe Journal of Physical Chemistry, 1991
- Determining the environment of transition metal ions in zeolitic catalysts: A combined computational and synchrotron-based study of nickel ions in zeolite-YCatalysis Letters, 1991
- Charting cation migration in a nickel exchanged zeolitic catalyst: An in situ rietveld X‐ray studyAdvanced Materials, 1990