The Thermochemistry of Alkyne Insertion into a Palladacycle Outlines the Solvation Conundrum in DFT

In an effort to determine the thermochemistry of established organometallic transformation, the well documented reaction of alkynes with a palladacycle was investigated by isothermal titration calorimetry (ITC). Although the mechanism of the insertion of unsaturated substrates into the Pd−C bond of...

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Veröffentlicht in:	European journal of inorganic chemistry 2021-12, Vol.2021 (45), p.4690-4699
Hauptverfasser:	Milovanović, Milan R., Boucher, Mélanie, Cornaton, Yann, Zarić, Snežana D., Pfeffer, Michel, Djukic, Jean‐Pierre
Format:	Artikel
Sprache:	eng
Schlagworte:	Alkynes Analytical chemistry Calorimetry Chemical Sciences Chlorobenzene Coordination chemistry Density functional calculations Enthalpy Inorganic chemistry Insertion Metallacycles Other Palladium Solvation Substrates Thermochemistry Titration calorimetry
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creator	Milovanović, Milan R. Boucher, Mélanie Cornaton, Yann Zarić, Snežana D. Pfeffer, Michel Djukic, Jean‐Pierre
description	In an effort to determine the thermochemistry of established organometallic transformation, the well documented reaction of alkynes with a palladacycle was investigated by isothermal titration calorimetry (ITC). Although the mechanism of the insertion of unsaturated substrates into the Pd−C bond of cyclopalladated compounds is known, no information is available so far about their thermochemistry. The enthalpies of the reactions of Ph−C≡C−Ph and MeOC(O)−C≡C(O)COMe with the bisacetonitrilo salt of the N,N‐benzylamine palladacycle were determined by ITC in chlorobenzene after having optimized the conditions to ensure that only the double and a single insertion of alkynes were occurring respectively. The reaction energy profile established by DFT for the double insertion process involving Ph−C≡C−Ph confirmed earlier conclusions on the rate determining character of the first insertion. Further computations of reaction enthalpies reveal significant discrepancies between ITC and DFT‐D/continuum solvation enthalpies, that are suspected to arise from an unexpected explicit noncovalent interaction of PhCl with the components of the reaction. Enthalpies of reactions of alkynes with a palladacycle determined by isotherm titration calorimetry in chlorobenzene reveal major solvation‐related discrepancies with a standard continuum solvation‐DFT approach.
doi_str_mv	10.1002/ejic.202100750
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Although the mechanism of the insertion of unsaturated substrates into the Pd−C bond of cyclopalladated compounds is known, no information is available so far about their thermochemistry. The enthalpies of the reactions of Ph−C≡C−Ph and MeOC(O)−C≡C(O)COMe with the bisacetonitrilo salt of the N,N‐benzylamine palladacycle were determined by ITC in chlorobenzene after having optimized the conditions to ensure that only the double and a single insertion of alkynes were occurring respectively. The reaction energy profile established by DFT for the double insertion process involving Ph−C≡C−Ph confirmed earlier conclusions on the rate determining character of the first insertion. Further computations of reaction enthalpies reveal significant discrepancies between ITC and DFT‐D/continuum solvation enthalpies, that are suspected to arise from an unexpected explicit noncovalent interaction of PhCl with the components of the reaction. 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subjects	Alkynes Analytical chemistry Calorimetry Chemical Sciences Chlorobenzene Coordination chemistry Density functional calculations Enthalpy Inorganic chemistry Insertion Metallacycles Other Palladium Solvation Substrates Thermochemistry Titration calorimetry
title	The Thermochemistry of Alkyne Insertion into a Palladacycle Outlines the Solvation Conundrum in DFT
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