Template-assisted crystallization of sulfates onto calcite: implications for the prevention of salt damage

In situ X-ray diffraction (XRD) and environmental scanning electron microscope (ESEM) crystallization experiments show oriented growth of magnesium sulfate crystals on a diethylenetriaminepenta- methylene phosphonic acid (DTPMP) template adsorbed onto Iceland spar (calcite, CaCO3) cleavage surfaces....

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Main Authors: Ruiz-Agudo, E, Putnis, CV, Pel, L Leo, Rodriquez-Navarro, C
Format: Article in Journal/Newspaper
Language:English
Published: 2012
Subjects:
Iceland
Online Access:http://repository.tue.nl/751417
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record_format openpolar
spelling ftuniveindhoven:oai:library.tue.nl:751417 2023-05-15T16:51:09+02:00 Template-assisted crystallization of sulfates onto calcite: implications for the prevention of salt damage Ruiz-Agudo, E Putnis, CV Pel, L Leo Rodriquez-Navarro, C 2012 application/pdf http://repository.tue.nl/751417 en eng Copyright (c) Ruiz-Agudo, E Copyright (c) Putnis, CV Copyright (c) Pel, L Leo Copyright (c) Rodriquez-Navarro, C ISSN:1528-7483 Article / Letter to the editor 2012 ftuniveindhoven 2018-12-26T13:24:50Z In situ X-ray diffraction (XRD) and environmental scanning electron microscope (ESEM) crystallization experiments show oriented growth of magnesium sulfate crystals on a diethylenetriaminepenta- methylene phosphonic acid (DTPMP) template adsorbed onto Iceland spar (calcite, CaCO3) cleavage surfaces. Epsomite (MgSO4·7H2O) and hexahydrite (MgSO4·6H2O) crystallize (depending on the ambient conditions) in the presence of DTPMP with (010)epsomite//(101¯4)calcite and (1¯11)hexahydrite//(101¯4)calcite, whereas in the absence of DTPMP they show no preferred orientation. On the other hand, sodium sulfate (mirabilite, Na2SO4·10H2O) nucleates onto a Ca- DTPMP precipitate with (001)mirabilite//(101¯4)calcite. In contrast, different sodium sulfate phases crystallize and grow with no preferred crystallographic orientation in the absence of an organic additive. These results allow us to propose a model for the interaction calcite-DTPMP-Na and Mg sulfates based on the template-assisted nucleation and oriented heterogeneous crystallization, mediated by a Ca-precipitate, of inorganic salts on calcitic substrates. This effect results in a (measured) reduction in the critical supersaturation reached by these salts when crystallizing in confined geometries, i.e., a pore, thus resulting in a reduction in crystallization pressure and damage to porous substrates such as building stones. These results have implications in fields where in-pore crystallization of salts results in damage or plugging of the porous network, e.g., cultural heritage conservation and in the oil industry, where phosphonates are used as crystallization inhibitors. Article in Journal/Newspaper Iceland Eindhoven University of Technology (TU/e): Research Portal
institution Open Polar
collection Eindhoven University of Technology (TU/e): Research Portal
op_collection_id ftuniveindhoven
language English
description In situ X-ray diffraction (XRD) and environmental scanning electron microscope (ESEM) crystallization experiments show oriented growth of magnesium sulfate crystals on a diethylenetriaminepenta- methylene phosphonic acid (DTPMP) template adsorbed onto Iceland spar (calcite, CaCO3) cleavage surfaces. Epsomite (MgSO4·7H2O) and hexahydrite (MgSO4·6H2O) crystallize (depending on the ambient conditions) in the presence of DTPMP with (010)epsomite//(101¯4)calcite and (1¯11)hexahydrite//(101¯4)calcite, whereas in the absence of DTPMP they show no preferred orientation. On the other hand, sodium sulfate (mirabilite, Na2SO4·10H2O) nucleates onto a Ca- DTPMP precipitate with (001)mirabilite//(101¯4)calcite. In contrast, different sodium sulfate phases crystallize and grow with no preferred crystallographic orientation in the absence of an organic additive. These results allow us to propose a model for the interaction calcite-DTPMP-Na and Mg sulfates based on the template-assisted nucleation and oriented heterogeneous crystallization, mediated by a Ca-precipitate, of inorganic salts on calcitic substrates. This effect results in a (measured) reduction in the critical supersaturation reached by these salts when crystallizing in confined geometries, i.e., a pore, thus resulting in a reduction in crystallization pressure and damage to porous substrates such as building stones. These results have implications in fields where in-pore crystallization of salts results in damage or plugging of the porous network, e.g., cultural heritage conservation and in the oil industry, where phosphonates are used as crystallization inhibitors.
format Article in Journal/Newspaper
author Ruiz-Agudo, E
Putnis, CV
Pel, L Leo
Rodriquez-Navarro, C
spellingShingle Ruiz-Agudo, E
Putnis, CV
Pel, L Leo
Rodriquez-Navarro, C
Template-assisted crystallization of sulfates onto calcite: implications for the prevention of salt damage
author_facet Ruiz-Agudo, E
Putnis, CV
Pel, L Leo
Rodriquez-Navarro, C
author_sort Ruiz-Agudo, E
title Template-assisted crystallization of sulfates onto calcite: implications for the prevention of salt damage
title_short Template-assisted crystallization of sulfates onto calcite: implications for the prevention of salt damage
title_full Template-assisted crystallization of sulfates onto calcite: implications for the prevention of salt damage
title_fullStr Template-assisted crystallization of sulfates onto calcite: implications for the prevention of salt damage
title_full_unstemmed Template-assisted crystallization of sulfates onto calcite: implications for the prevention of salt damage
title_sort template-assisted crystallization of sulfates onto calcite: implications for the prevention of salt damage
publishDate 2012
url http://repository.tue.nl/751417
genre Iceland
genre_facet Iceland
op_source ISSN:1528-7483
op_rights Copyright (c) Ruiz-Agudo, E
Copyright (c) Putnis, CV
Copyright (c) Pel, L Leo
Copyright (c) Rodriquez-Navarro, C
_version_ 1766041257444900864

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