Early Stage Hydration of Wollastonite: Kinetic Aspects of the Metal-Proton Exchange Reaction

In this paper we bring up new aspects of the metal-proton exchange reaction (MPER, also called early stage hydration): (1) dependence of the number of protons consumed by the preferential exchanged cations on the pH value applied at the water/wollastonite interface and (2) strong anisotropic charact...

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Veröffentlicht in:	Journal of physical chemistry. C 2015-05, Vol.119 (19), p.10493-10499
Hauptverfasser:	Giraudo, Nicolas, Krolla-Sidenstein, Peter, Bergdolt, Samuel, Heinle, Marita, Gliemann, Hartmut, Messerschmidt, Florian, Brüner, Philipp, Thissen, Peter
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container_end_page	10499
container_issue	19
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container_title	Journal of physical chemistry. C
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creator	Giraudo, Nicolas Krolla-Sidenstein, Peter Bergdolt, Samuel Heinle, Marita Gliemann, Hartmut Messerschmidt, Florian Brüner, Philipp Thissen, Peter
description	In this paper we bring up new aspects of the metal-proton exchange reaction (MPER, also called early stage hydration): (1) dependence of the number of protons consumed by the preferential exchanged cations on the pH value applied at the water/wollastonite interface and (2) strong anisotropic characteristics detected in atomic force microscopy (AFM) and low energy ion scattering spectroscopy measurements (LEIS). First we apply density functional theory (DFT) calculations to compare the kinetics of the reaction on different wollastonite surfaces and combine it with ab initio thermodynamics to set up a model describing (1) the release of Ca in exchange with H coming from the water/wollastonite interface, (2) the dependence of the MPER on the chemical potential of protons. In the second part of the paper we carried out in situ AFM and inductive coupled plasma optical emission spectroscopy (ICP-OES) measurements in order to evaluate the predicted values. While a good agreement is found in the basic and neutral regime (pH values from 14 to 4), an increasing mismatch appears in the acidic regime (pH value lower 4). This is finally explained by nonequilibrium etching, dominating over the MPER in the very acidic regime.
doi_str_mv	10.1021/acs.jpcc.5b02327
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First we apply density functional theory (DFT) calculations to compare the kinetics of the reaction on different wollastonite surfaces and combine it with ab initio thermodynamics to set up a model describing (1) the release of Ca in exchange with H coming from the water/wollastonite interface, (2) the dependence of the MPER on the chemical potential of protons. In the second part of the paper we carried out in situ AFM and inductive coupled plasma optical emission spectroscopy (ICP-OES) measurements in order to evaluate the predicted values. While a good agreement is found in the basic and neutral regime (pH values from 14 to 4), an increasing mismatch appears in the acidic regime (pH value lower 4). 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In the second part of the paper we carried out in situ AFM and inductive coupled plasma optical emission spectroscopy (ICP-OES) measurements in order to evaluate the predicted values. While a good agreement is found in the basic and neutral regime (pH values from 14 to 4), an increasing mismatch appears in the acidic regime (pH value lower 4). 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C</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Giraudo, Nicolas</au><au>Krolla-Sidenstein, Peter</au><au>Bergdolt, Samuel</au><au>Heinle, Marita</au><au>Gliemann, Hartmut</au><au>Messerschmidt, Florian</au><au>Brüner, Philipp</au><au>Thissen, Peter</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Early Stage Hydration of Wollastonite: Kinetic Aspects of the Metal-Proton Exchange Reaction</atitle><jtitle>Journal of physical chemistry. C</jtitle><addtitle>J. Phys. Chem. C</addtitle><date>2015-05-14</date><risdate>2015</risdate><volume>119</volume><issue>19</issue><spage>10493</spage><epage>10499</epage><pages>10493-10499</pages><issn>1932-7447</issn><eissn>1932-7455</eissn><abstract>In this paper we bring up new aspects of the metal-proton exchange reaction (MPER, also called early stage hydration): (1) dependence of the number of protons consumed by the preferential exchanged cations on the pH value applied at the water/wollastonite interface and (2) strong anisotropic characteristics detected in atomic force microscopy (AFM) and low energy ion scattering spectroscopy measurements (LEIS). First we apply density functional theory (DFT) calculations to compare the kinetics of the reaction on different wollastonite surfaces and combine it with ab initio thermodynamics to set up a model describing (1) the release of Ca in exchange with H coming from the water/wollastonite interface, (2) the dependence of the MPER on the chemical potential of protons. In the second part of the paper we carried out in situ AFM and inductive coupled plasma optical emission spectroscopy (ICP-OES) measurements in order to evaluate the predicted values. While a good agreement is found in the basic and neutral regime (pH values from 14 to 4), an increasing mismatch appears in the acidic regime (pH value lower 4). This is finally explained by nonequilibrium etching, dominating over the MPER in the very acidic regime.</abstract><pub>American Chemical Society</pub><doi>10.1021/acs.jpcc.5b02327</doi><tpages>7</tpages></addata></record>
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title	Early Stage Hydration of Wollastonite: Kinetic Aspects of the Metal-Proton Exchange Reaction
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