The Different Organization of Water in Zeolite L and Its MOF Mimic

25 February 2019, Version 1
This content is a preprint and has not undergone peer review at the time of posting.


Confinement of molecules inside one dimensional arrays of channel-shaped cavities has led to an impressive number of technologically interesting materials. However, the interactions governing the properties of the supramolecular aggregates still remain obscure, even in the case of the most common guest molecule: water. Herein, we use computational chemistry methods (#compchem) to study the water organization inside two different channel-type environments: zeolite L – a widely used matrix for inclusion of dye molecules, and ZLMOF – the closest metal-organic-framework mimic of zeolite L. In ZLMOF, the methyl groups of the ligands protrude inside the channels, creating nearly isolated nanocavities. These cavities host well-separated ring-shaped clusters of water molecules, dominated mainly by water-water hydrogen bonds. ZLMOF channels thus provide arrays of „isolated supramolecule“ environments, which might be exploited for the individual confinement of small species with interesting optical or catalytic properties. In contrast, the one dimensional nanochannels of zeolite L contain a continuous supramolecular structure, governed by the water interactions with potassium cations and by water-water hydrogen bonds. Water molecules impart a significant energetic stabilization to both materials, which increases by increasing the water content in ZLMOF, while the opposite trend is observed in zeolite L. The water network in zeolite L contains an intriguing hyper-coordinated structure, where a water molecule is surrounded by 5 strong hydrogen bonds. Such a structure, here described for the first time in zeolites, can be considered as a water pre-dissociation complex and might explain the experimentally detected high proton activity in zeolite L nanochannels.


Metal Organic Frameworks
DFT calculations
host-guest materials
porous materials
confined water
Open Frameworks
modeling and simulations

Supplementary materials



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