A new zeolite topology deriving from levyne dehydration

Knowledge of the structural modifications induced by temperature in zeolites and of their stability fields is of prime importance to assess zeolite persistence and effectiveness in their technological applications. Some porous materials, when completely dehydrated, undergo irreversible changes in th...

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Main Authors: R. Arletti, G. vezzalini, A. Alvaro, F. camara, QUARTIERI, Simona
Other Authors: R., Arletti, Quartieri, Simona, G., Vezzalini, A., Alvaro, F., Camara
Format: Conference Object
Language:English
Published: 2012
Subjects:
zeolite levyne
high temperature
new topology
dehydration dynamics
Iceland
Online Access:http://hdl.handle.net/11570/2435855
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record_format openpolar
spelling ftunimessinairis:oai:iris.unime.it:11570/2435855 2024-02-11T10:05:15+01:00 A new zeolite topology deriving from levyne dehydration R. Arletti G. vezzalini A. Alvaro F. camara QUARTIERI, Simona R., Arletti Quartieri, Simona G., Vezzalini A., Alvaro F., Camara 2012 STAMPA http://hdl.handle.net/11570/2435855 eng eng V International Workshop OXIDES 2012 & AIZ Day 2012 firstpage:158 lastpage:158 numberofpages:1 http://hdl.handle.net/11570/2435855 zeolite levyne high temperature new topology dehydration dynamics info:eu-repo/semantics/conferenceObject 2012 ftunimessinairis 2024-01-24T17:39:35Z Knowledge of the structural modifications induced by temperature in zeolites and of their stability fields is of prime importance to assess zeolite persistence and effectiveness in their technological applications. Some porous materials, when completely dehydrated, undergo irreversible changes in the framework topology. In general, these changes are due to the strain induced by migration of cations - initially located in the channels and surrounded by water molecules - to achieve a better coordination with framework anions after the water release. Notwithstanding the spread interest for porous materials with levyne topology (LEV), their thermal behavior and stability have not been studied in detail up to now. In this work, the thermal induced structural modifications of a natural levyne from Fagridalur (Iceland) (Ca7.8 Na2.2K1.1Al19.8Si31.2O10851H2O, a= 13.3619(4) Å, c= 22.8820(1) Å, V = 3538.0(3) Å3, s.g. R-3m) were studied by both temperature-resolved synchrotron X-ray powder diffraction experiments (SR-XRPD), and by conventional-source high-temperature single crystal X-ray diffraction (SC-XRD). LEV framework consists of stacking 6-rings perpendicular to [0001] (6mR) in the sequence AABCCABBC (Merlino et al. 1975). Levyne cage is confined by two pairs of 6mR (D6R building units), and contains the non-framework cations and water molecules. A three-dimensional channel system, confined by 8-membered rings, lies perpendicular to [0001]. The SR-XRPD patterns were collected in continuum from room-T to 800°C, while SC-XRD experiments were performed at room-T, 30, 100 and 250°C. Below 100°C a lattice parameter increases, while c decreases, accounting for a very low volume reduction and few water molecule loss. Between 100 and 200 °C, the release of more than 23 water molecules induces the cations migration toward the framework oxygen atoms, so to achieve a better coordination. Above 230°C, a further water loss induces the breaking of the oxygen bridges in the D6R, the edge-sharing tetrahedral phenomenon and the ... Conference Object Iceland Università degli Studi di Messina: IRIS
institution Open Polar
collection Università degli Studi di Messina: IRIS
op_collection_id ftunimessinairis
language English
topic zeolite levyne
high temperature
new topology
dehydration dynamics
spellingShingle zeolite levyne
high temperature
new topology
dehydration dynamics
R. Arletti
G. vezzalini
A. Alvaro
F. camara
QUARTIERI, Simona
A new zeolite topology deriving from levyne dehydration
topic_facet zeolite levyne
high temperature
new topology
dehydration dynamics
description Knowledge of the structural modifications induced by temperature in zeolites and of their stability fields is of prime importance to assess zeolite persistence and effectiveness in their technological applications. Some porous materials, when completely dehydrated, undergo irreversible changes in the framework topology. In general, these changes are due to the strain induced by migration of cations - initially located in the channels and surrounded by water molecules - to achieve a better coordination with framework anions after the water release. Notwithstanding the spread interest for porous materials with levyne topology (LEV), their thermal behavior and stability have not been studied in detail up to now. In this work, the thermal induced structural modifications of a natural levyne from Fagridalur (Iceland) (Ca7.8 Na2.2K1.1Al19.8Si31.2O10851H2O, a= 13.3619(4) Å, c= 22.8820(1) Å, V = 3538.0(3) Å3, s.g. R-3m) were studied by both temperature-resolved synchrotron X-ray powder diffraction experiments (SR-XRPD), and by conventional-source high-temperature single crystal X-ray diffraction (SC-XRD). LEV framework consists of stacking 6-rings perpendicular to [0001] (6mR) in the sequence AABCCABBC (Merlino et al. 1975). Levyne cage is confined by two pairs of 6mR (D6R building units), and contains the non-framework cations and water molecules. A three-dimensional channel system, confined by 8-membered rings, lies perpendicular to [0001]. The SR-XRPD patterns were collected in continuum from room-T to 800°C, while SC-XRD experiments were performed at room-T, 30, 100 and 250°C. Below 100°C a lattice parameter increases, while c decreases, accounting for a very low volume reduction and few water molecule loss. Between 100 and 200 °C, the release of more than 23 water molecules induces the cations migration toward the framework oxygen atoms, so to achieve a better coordination. Above 230°C, a further water loss induces the breaking of the oxygen bridges in the D6R, the edge-sharing tetrahedral phenomenon and the ...
author2 R., Arletti
Quartieri, Simona
G., Vezzalini
A., Alvaro
F., Camara
format Conference Object
author R. Arletti
G. vezzalini
A. Alvaro
F. camara
QUARTIERI, Simona
author_facet R. Arletti
G. vezzalini
A. Alvaro
F. camara
QUARTIERI, Simona
author_sort R. Arletti
title A new zeolite topology deriving from levyne dehydration
title_short A new zeolite topology deriving from levyne dehydration
title_full A new zeolite topology deriving from levyne dehydration
title_fullStr A new zeolite topology deriving from levyne dehydration
title_full_unstemmed A new zeolite topology deriving from levyne dehydration
title_sort new zeolite topology deriving from levyne dehydration
publishDate 2012
url http://hdl.handle.net/11570/2435855
genre Iceland
genre_facet Iceland
op_relation V International Workshop OXIDES 2012 & AIZ Day 2012
firstpage:158
lastpage:158
numberofpages:1
http://hdl.handle.net/11570/2435855
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