The Effect of Local Defects on Water Adsorption in Silicalite-1 Zeolite: A Joint Experimental and Molecular Simulation Study

We report a joint experimental and molecular simulation study of water condensation in silicalite-1 zeolite. A sample was synthesized using the fluoride route and was found to contain essentially no defects. A second sample synthesized using the hydroxide route was found to contain a small amount of...

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Veröffentlicht in:	Langmuir 2007-09, Vol.23 (20), p.10131-10139
Hauptverfasser:	Trzpit, M, Soulard, M, Patarin, J, Desbiens, N, Cailliez, F, Boutin, A, Demachy, I, Fuchs, A. H
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Sprache:	eng
Schlagworte:	Chemical Physics Chemistry Colloidal state and disperse state Exact sciences and technology General and physical chemistry Ion-exchange Physics Surface physical chemistry Zeolites: preparations and properties
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creator	Trzpit, M Soulard, M Patarin, J Desbiens, N Cailliez, F Boutin, A Demachy, I Fuchs, A. H
description	We report a joint experimental and molecular simulation study of water condensation in silicalite-1 zeolite. A sample was synthesized using the fluoride route and was found to contain essentially no defects. A second sample synthesized using the hydroxide route was found to contain a small amount of silanol groups. The thermodynamics of water condensation was studied in these two samples, as well as in a commercial sample, in order to understand the effect of local defects on water adsorption. The molecular simulation study enabled us to qualitatively reproduce the experimentally observed condensation thermodynamics features. A shift and a rounding of the condensation transition was observed with an increasing hydrophilicity of the local defect, but the condensation transition was still observed above the water saturation vapor pressure P 0. Both experiments and simulations agree on the fact that a small water uptake can be observed at very low pressure, but that the bulk liquid does not form from the gas phase below P 0. The picture that emerges from the observed water condensation mechanism is the existence of a heterogeneous internal surface that is overall hydrophobic, despite the existence of hydrophilic “patches”. This heterogeneous surface configuration is thermodynamically stable in a wide range of reduced pressures (from P/P 0 = 0.2 to a few thousands), until the condensation transition takes place.
doi_str_mv	10.1021/la7011205
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A shift and a rounding of the condensation transition was observed with an increasing hydrophilicity of the local defect, but the condensation transition was still observed above the water saturation vapor pressure P 0. Both experiments and simulations agree on the fact that a small water uptake can be observed at very low pressure, but that the bulk liquid does not form from the gas phase below P 0. The picture that emerges from the observed water condensation mechanism is the existence of a heterogeneous internal surface that is overall hydrophobic, despite the existence of hydrophilic “patches”. 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H</creatorcontrib><title>The Effect of Local Defects on Water Adsorption in Silicalite-1 Zeolite: A Joint Experimental and Molecular Simulation Study</title><title>Langmuir</title><addtitle>Langmuir</addtitle><description>We report a joint experimental and molecular simulation study of water condensation in silicalite-1 zeolite. A sample was synthesized using the fluoride route and was found to contain essentially no defects. A second sample synthesized using the hydroxide route was found to contain a small amount of silanol groups. The thermodynamics of water condensation was studied in these two samples, as well as in a commercial sample, in order to understand the effect of local defects on water adsorption. The molecular simulation study enabled us to qualitatively reproduce the experimentally observed condensation thermodynamics features. A shift and a rounding of the condensation transition was observed with an increasing hydrophilicity of the local defect, but the condensation transition was still observed above the water saturation vapor pressure P 0. Both experiments and simulations agree on the fact that a small water uptake can be observed at very low pressure, but that the bulk liquid does not form from the gas phase below P 0. The picture that emerges from the observed water condensation mechanism is the existence of a heterogeneous internal surface that is overall hydrophobic, despite the existence of hydrophilic “patches”. This heterogeneous surface configuration is thermodynamically stable in a wide range of reduced pressures (from P/P 0 = 0.2 to a few thousands), until the condensation transition takes place.</description><subject>Chemical Physics</subject><subject>Chemistry</subject><subject>Colloidal state and disperse state</subject><subject>Exact sciences and technology</subject><subject>General and physical chemistry</subject><subject>Ion-exchange</subject><subject>Physics</subject><subject>Surface physical chemistry</subject><subject>Zeolites: preparations and properties</subject><issn>0743-7463</issn><issn>1520-5827</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2007</creationdate><recordtype>article</recordtype><recordid>eNptkctuEzEUQC0EoqWw4AeQNyCxGLDH48ewi0poKKmolCAkNpbruVZdJuPU9qB2BVt-ky_BIVGyYXXt6-Oj-0DoOSVvKKnp295IQmlN-AN0THlNKq5q-RAdE9mwSjaCHaEnKd0QQlrWtI_REZWS8paTY_RzeQ146hzYjIPD82BNj9_D5p5wGPBXkyHiSZdCXGdfEn7AC9_7gvkMFcXfIGxO7_78-o0n-Dz4IePp3RqiX8GQi8wMHb4IPdixN7H8XZX4z7TIY3f_FD1ypk_wbBdP0JcP0-XprJp_Pvt4OplXpqE8V05Z4RoqbFtavVIdY1w423TAFCNMKmM7CpSoupPM1cK14BgF21prGilEy07Q66332vR6XYoz8V4H4_VsMtebHCFUkVa1P2hhX23ZdQy3I6SsVz5Z6HszQBiTFqpWNWmag9TGkFIEtzdTojeb0fvNFPbFTjperaA7kLtVFODlDjCpTNdFM1ifDlxLCRdcFq7acj5luNu_m_hdC8kk18vLhT67lPzi0znVs4PX2KRvwhiHMuf_FPgXplawKQ</recordid><startdate>20070925</startdate><enddate>20070925</enddate><creator>Trzpit, M</creator><creator>Soulard, M</creator><creator>Patarin, J</creator><creator>Desbiens, N</creator><creator>Cailliez, F</creator><creator>Boutin, A</creator><creator>Demachy, I</creator><creator>Fuchs, A. 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H</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The Effect of Local Defects on Water Adsorption in Silicalite-1 Zeolite: A Joint Experimental and Molecular Simulation Study</atitle><jtitle>Langmuir</jtitle><addtitle>Langmuir</addtitle><date>2007-09-25</date><risdate>2007</risdate><volume>23</volume><issue>20</issue><spage>10131</spage><epage>10139</epage><pages>10131-10139</pages><issn>0743-7463</issn><eissn>1520-5827</eissn><coden>LANGD5</coden><abstract>We report a joint experimental and molecular simulation study of water condensation in silicalite-1 zeolite. A sample was synthesized using the fluoride route and was found to contain essentially no defects. A second sample synthesized using the hydroxide route was found to contain a small amount of silanol groups. The thermodynamics of water condensation was studied in these two samples, as well as in a commercial sample, in order to understand the effect of local defects on water adsorption. 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title	The Effect of Local Defects on Water Adsorption in Silicalite-1 Zeolite: A Joint Experimental and Molecular Simulation Study
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