Complexation of Phenol and Thiophenol by Amine N-Oxides: Isothermal Titration Caloritmetry and ab Initio Calculations

Complexation of Phenol and Thiophenol by Amine N-Oxides: Isothermal Titration Caloritmetry and ab Initio Calculations

To develop a new solvent-impregnated resin (SIR) system for removal of phenols from water the complex formation of dimethyldodecylamine. N-oxide (DMDAO), trioctylamine N-oxide (TOAO), and tris(2-ethylhexyl)amine N-oxide (TEHAO) with phenol (PhOH) and thiophenol (PhSH) is studied To this end we use isothermal titration calorimetry (ITC) and quantum chemical modeling (on B3LYP/6 311G(d,p)-optimized geometries B3LYP/6-311+G(d,p), B3LYP/6311++ G(2d,2p), MP2/6-311 +G(d,p), and and spin component scaled (SCS) MP2/6-311+ G(d,p), M06-2X/6-311+G(d,p)//M06-2X/6311G(dp), MP2 with an extrapolation to the complete basis (MP2/CBS), as well as CBS-Q) The complexes are analyzed in terms of structural (e g, bond lengths) and electronic elements (e g, charges) Furthermore, complexation and,solvent effects (in benzene, toluene, and mesitylene) are investigated by ITC measurements, yielding binding constants K, enthalpies Delta H-0, Gibbs fre energies Delta G(0), and entropies Delta S-0 of complex formation, and stoichiometry N The ITC measurements revealed strong 1 1 complex formation between both DMDAO-PhOH and TOAO-PhOH The binding constant (K=1 7-5 7 x 10(4) M-1) drops markedly when water saturated toluene was used (K=5 8 x 10(3) M-1), and with, the solvent is shown to be relevant Quantum modeling confirms formation of stable 11 complexes with linear hydrogen bonds that weaken on attachment. of electron-withdrawing groups to the amine N-oxide moiety Modeling also showed that complexes with PhSH are much weaker than those with PhOH, and in fact too weak for ITC determination CBS-Q incorrectly predicts equal or even higher binding enthalpies for PhSH than for PhOH, which invalidates it as a benchmark for other calculations Data from the straightforward SCS-MP2 method without counterpoise correction show very good agreement with the MP2/CBS values

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Main Authors: Cuypers, R., Sukumaran, M., Marcelis, A.T.M., Sudhölter, E.J.R., Zuilhof, H.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:acid, aqueous-media, correlation energies, density functionals, dimers, extraction, hydrogen-bond strengths, noncovalent interactions, plesset perturbation-theory, solvent-impregnated resins,
Online Access:https://research.wur.nl/en/publications/complexation-of-phenol-and-thiophenol-by-amine-n-oxides-isotherma
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spelling dig-wur-nl-wurpubs-3975302024-06-25 Cuypers, R. Sukumaran, M. Marcelis, A.T.M. Sudhölter, E.J.R. Zuilhof, H. Article/Letter to editor ChemPhysChem 11 (2010) 16 ISSN: 1439-4235 Complexation of Phenol and Thiophenol by Amine N-Oxides: Isothermal Titration Caloritmetry and ab Initio Calculations 2010 To develop a new solvent-impregnated resin (SIR) system for removal of phenols from water the complex formation of dimethyldodecylamine. N-oxide (DMDAO), trioctylamine N-oxide (TOAO), and tris(2-ethylhexyl)amine N-oxide (TEHAO) with phenol (PhOH) and thiophenol (PhSH) is studied To this end we use isothermal titration calorimetry (ITC) and quantum chemical modeling (on B3LYP/6 311G(d,p)-optimized geometries B3LYP/6-311+G(d,p), B3LYP/6311++ G(2d,2p), MP2/6-311 +G(d,p), and and spin component scaled (SCS) MP2/6-311+ G(d,p), M06-2X/6-311+G(d,p)//M06-2X/6311G(dp), MP2 with an extrapolation to the complete basis (MP2/CBS), as well as CBS-Q) The complexes are analyzed in terms of structural (e g, bond lengths) and electronic elements (e g, charges) Furthermore, complexation and,solvent effects (in benzene, toluene, and mesitylene) are investigated by ITC measurements, yielding binding constants K, enthalpies Delta H-0, Gibbs fre energies Delta G(0), and entropies Delta S-0 of complex formation, and stoichiometry N The ITC measurements revealed strong 1 1 complex formation between both DMDAO-PhOH and TOAO-PhOH The binding constant (K=1 7-5 7 x 10(4) M-1) drops markedly when water saturated toluene was used (K=5 8 x 10(3) M-1), and with, the solvent is shown to be relevant Quantum modeling confirms formation of stable 11 complexes with linear hydrogen bonds that weaken on attachment. of electron-withdrawing groups to the amine N-oxide moiety Modeling also showed that complexes with PhSH are much weaker than those with PhOH, and in fact too weak for ITC determination CBS-Q incorrectly predicts equal or even higher binding enthalpies for PhSH than for PhOH, which invalidates it as a benchmark for other calculations Data from the straightforward SCS-MP2 method without counterpoise correction show very good agreement with the MP2/CBS values en application/pdf https://research.wur.nl/en/publications/complexation-of-phenol-and-thiophenol-by-amine-n-oxides-isotherma 10.1002/cphc.201000482 https://edepot.wur.nl/155100 acid aqueous-media correlation energies density functionals dimers extraction hydrogen-bond strengths noncovalent interactions plesset perturbation-theory solvent-impregnated resins Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic acid
aqueous-media
correlation energies
density functionals
dimers
extraction
hydrogen-bond strengths
noncovalent interactions
plesset perturbation-theory
solvent-impregnated resins
acid
aqueous-media
correlation energies
density functionals
dimers
extraction
hydrogen-bond strengths
noncovalent interactions
plesset perturbation-theory
solvent-impregnated resins
spellingShingle acid
aqueous-media
correlation energies
density functionals
dimers
extraction
hydrogen-bond strengths
noncovalent interactions
plesset perturbation-theory
solvent-impregnated resins
acid
aqueous-media
correlation energies
density functionals
dimers
extraction
hydrogen-bond strengths
noncovalent interactions
plesset perturbation-theory
solvent-impregnated resins
Cuypers, R.
Sukumaran, M.
Marcelis, A.T.M.
Sudhölter, E.J.R.
Zuilhof, H.
Complexation of Phenol and Thiophenol by Amine N-Oxides: Isothermal Titration Caloritmetry and ab Initio Calculations
description To develop a new solvent-impregnated resin (SIR) system for removal of phenols from water the complex formation of dimethyldodecylamine. N-oxide (DMDAO), trioctylamine N-oxide (TOAO), and tris(2-ethylhexyl)amine N-oxide (TEHAO) with phenol (PhOH) and thiophenol (PhSH) is studied To this end we use isothermal titration calorimetry (ITC) and quantum chemical modeling (on B3LYP/6 311G(d,p)-optimized geometries B3LYP/6-311+G(d,p), B3LYP/6311++ G(2d,2p), MP2/6-311 +G(d,p), and and spin component scaled (SCS) MP2/6-311+ G(d,p), M06-2X/6-311+G(d,p)//M06-2X/6311G(dp), MP2 with an extrapolation to the complete basis (MP2/CBS), as well as CBS-Q) The complexes are analyzed in terms of structural (e g, bond lengths) and electronic elements (e g, charges) Furthermore, complexation and,solvent effects (in benzene, toluene, and mesitylene) are investigated by ITC measurements, yielding binding constants K, enthalpies Delta H-0, Gibbs fre energies Delta G(0), and entropies Delta S-0 of complex formation, and stoichiometry N The ITC measurements revealed strong 1 1 complex formation between both DMDAO-PhOH and TOAO-PhOH The binding constant (K=1 7-5 7 x 10(4) M-1) drops markedly when water saturated toluene was used (K=5 8 x 10(3) M-1), and with, the solvent is shown to be relevant Quantum modeling confirms formation of stable 11 complexes with linear hydrogen bonds that weaken on attachment. of electron-withdrawing groups to the amine N-oxide moiety Modeling also showed that complexes with PhSH are much weaker than those with PhOH, and in fact too weak for ITC determination CBS-Q incorrectly predicts equal or even higher binding enthalpies for PhSH than for PhOH, which invalidates it as a benchmark for other calculations Data from the straightforward SCS-MP2 method without counterpoise correction show very good agreement with the MP2/CBS values
format Article/Letter to editor
topic_facet acid
aqueous-media
correlation energies
density functionals
dimers
extraction
hydrogen-bond strengths
noncovalent interactions
plesset perturbation-theory
solvent-impregnated resins
author Cuypers, R.
Sukumaran, M.
Marcelis, A.T.M.
Sudhölter, E.J.R.
Zuilhof, H.
author_facet Cuypers, R.
Sukumaran, M.
Marcelis, A.T.M.
Sudhölter, E.J.R.
Zuilhof, H.
author_sort Cuypers, R.
title Complexation of Phenol and Thiophenol by Amine N-Oxides: Isothermal Titration Caloritmetry and ab Initio Calculations
title_short Complexation of Phenol and Thiophenol by Amine N-Oxides: Isothermal Titration Caloritmetry and ab Initio Calculations
title_full Complexation of Phenol and Thiophenol by Amine N-Oxides: Isothermal Titration Caloritmetry and ab Initio Calculations
title_fullStr Complexation of Phenol and Thiophenol by Amine N-Oxides: Isothermal Titration Caloritmetry and ab Initio Calculations
title_full_unstemmed Complexation of Phenol and Thiophenol by Amine N-Oxides: Isothermal Titration Caloritmetry and ab Initio Calculations
title_sort complexation of phenol and thiophenol by amine n-oxides: isothermal titration caloritmetry and ab initio calculations
url https://research.wur.nl/en/publications/complexation-of-phenol-and-thiophenol-by-amine-n-oxides-isotherma
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AT marcelisatm complexationofphenolandthiophenolbyaminenoxidesisothermaltitrationcaloritmetryandabinitiocalculations
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