DOI > 10.5291/ILL-DATA.6-02-563

This proposal is publicly available since 05/29/2021

Title

The role of nanoconfined H2O on the pressure-induced amorphization of AlPO4-54*xH2O zeolite - high pressure investigation

Abstract

Here we propose to probe water diffusion together with intra- and inter-molecular vibrations in the hydrated aluminophosphate zeolite AlPO4-54*xH2O under HP (GPa). Our goal is to shed light on the role of water on pressure-induced amorphisation of the material and on possible existence of pressure-induced super-diffusion effects during water extrusion. To this aim we propose to probe the diffusive and vibrational properties of nanoconfined water in AlPO4-54*xH2O before and during its amorphization by combined QENS and IINS experiments under HP.

Experimental Report

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Data Citation

The recommended format for citing this dataset in a research publication is in the following format:

ALABARSE, F. G.; BOVE Livia Eleonora; Bernhard Frick; JIMENEZ RUIZ Monica; KLOTZ Stefan and RANIERI Umbertoluca. (2015). The role of nanoconfined H2O on the pressure-induced amorphization of AlPO4-54*xH2O zeolite - high pressure investigation. Institut Laue-Langevin (ILL) doi:10.5291/ILL-DATA.6-02-563

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Metadata

Experiment Parameters

  • Environment temperature

    173-293 K

  • Experiment energy

    25-400meV/-8-8miceV

  • Experiment moment

    0.2-2 Ang

  • Experiment res energy

    2-3% Ei/0.5miceV

Sample Parameters

  • Formula

    • AlPO4-54*xH2O, where X=2.17, [Al18P18O72]*39H2O

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