Dielectric studies of molecular mobility in hydrated zeolites

We report on detailed investigations of the dielectric relaxation mechanisms in a Na-13X zeolite by means of the method of thermally-stimulated depolarization currents (TSDC) over a wide range of temperatures, 77–300 K, and water content, 0.020–0.566 w w . Interest is mainly focused on quantitativel...

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Veröffentlicht in:	The Journal of physics and chemistry of solids 1993, Vol.54 (6), p.701-709
Hauptverfasser:	Pissis, P., Daoukaki-Diamanti, D.
Format:	Artikel
Sprache:	eng
Schlagworte:	Condensed matter: electronic structure, electrical, magnetic, and optical properties conductivity Crystal structure depolarization currents Dielectric loss and relaxation Dielectric properties of solids and liquids Dielectric relaxation Dielectrics, piezoelectrics, and ferroelectrics and their properties Electric current measurement Exact sciences and technology Hydration Mass transfer Physics Porous materials Spectroscopy water sorption Zeolites
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container_end_page	709
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container_title	The Journal of physics and chemistry of solids
container_volume	54
creator	Pissis, P. Daoukaki-Diamanti, D.
description	We report on detailed investigations of the dielectric relaxation mechanisms in a Na-13X zeolite by means of the method of thermally-stimulated depolarization currents (TSDC) over a wide range of temperatures, 77–300 K, and water content, 0.020–0.566 w w . Interest is mainly focused on quantitatively characterizing the effects of water on the motion of ions and the reduction of the mobility of water molecules in the confined pore geometry. Five distinct relaxation processes were identified. Three of them were attributed to motions of ions, namely, in the order of increasing temperature, local jumps of ions in the supercages, a Maxwell-Wagner effect and d.c. conductivity. The remaining two processes, present in the samples only for water content higher than a critical one for the completion of the first hydration layer, about 0.30, were ascribed to the reorientation of water molecules in the supercages and the small β-cages, respectively. The reduction of the mobility of water molecules was much stronger in the β-cages than in the supercages.
doi_str_mv	10.1016/0022-3697(93)90130-J
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Interest is mainly focused on quantitatively characterizing the effects of water on the motion of ions and the reduction of the mobility of water molecules in the confined pore geometry. Five distinct relaxation processes were identified. Three of them were attributed to motions of ions, namely, in the order of increasing temperature, local jumps of ions in the supercages, a Maxwell-Wagner effect and d.c. conductivity. The remaining two processes, present in the samples only for water content higher than a critical one for the completion of the first hydration layer, about 0.30, were ascribed to the reorientation of water molecules in the supercages and the small β-cages, respectively. 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source	ScienceDirect Journals (5 years ago - present)
subjects	Condensed matter: electronic structure, electrical, magnetic, and optical properties conductivity Crystal structure depolarization currents Dielectric loss and relaxation Dielectric properties of solids and liquids Dielectric relaxation Dielectrics, piezoelectrics, and ferroelectrics and their properties Electric current measurement Exact sciences and technology Hydration Mass transfer Physics Porous materials Spectroscopy water sorption Zeolites
title	Dielectric studies of molecular mobility in hydrated zeolites
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