Refined SMD Parameters for Bromine and Iodine Accurately Model Halogen-Bonding Interactions in Solution

Elric Engelage; Nils Schulz; Flemming Heinen; Stefan M. Huber; Donald G Truhlar; Chris Cramer

doi:10.1002/chem.201803652

Refined SMD Parameters for Bromine and Iodine Accurately Model Halogen-Bonding Interactions in Solution

Elric Engelage, Nils Schulz, Flemming Heinen, Stefan M. Huber, Donald G Truhlar, Chris Cramer

Research output: Contribution to journal › Article › peer-review

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Abstract

Motivated by the need to calculate liquid-phase free energies of species and equilibria involving halogen bonding, recent experimental data were used to optimize new Coulomb radii for Br and I for use in the SMD universal solvation model for calculating free energies of solvation. The use of the SMD model with these parameters for Br and I and the SMD values of all other parameters is called SMD18. After parametrization, the SMD18 model was tested for data not used in the parametrization. These data are standard-state free energies (equivalent to equilibrium constants) for 18 ionic equilibria involving Cl, Br, and I halogen bonding in acetonitrile, and the agreement of theory and experiment is satisfactory. The SMD18 model is then used to compare hydrogen bonding to halogen bonding and to reassess the interpretation of recent experiments.

Original language	English (US)
Pages (from-to)	15983-15987
Number of pages	5
Journal	Chemistry - A European Journal
Volume	24
Issue number	60
DOIs	https://doi.org/10.1002/chem.201803652
State	Published - Oct 26 2018

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© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim

Keywords

halogen bonding
halogens
intrinsic solvation model
nitrogen heterocycles
supramolecular chemistry

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title = "Refined SMD Parameters for Bromine and Iodine Accurately Model Halogen-Bonding Interactions in Solution",

abstract = "Motivated by the need to calculate liquid-phase free energies of species and equilibria involving halogen bonding, recent experimental data were used to optimize new Coulomb radii for Br and I for use in the SMD universal solvation model for calculating free energies of solvation. The use of the SMD model with these parameters for Br and I and the SMD values of all other parameters is called SMD18. After parametrization, the SMD18 model was tested for data not used in the parametrization. These data are standard-state free energies (equivalent to equilibrium constants) for 18 ionic equilibria involving Cl, Br, and I halogen bonding in acetonitrile, and the agreement of theory and experiment is satisfactory. The SMD18 model is then used to compare hydrogen bonding to halogen bonding and to reassess the interpretation of recent experiments.",

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AU - Engelage, Elric

AU - Schulz, Nils

AU - Heinen, Flemming

AU - Huber, Stefan M.

AU - Truhlar, Donald G

AU - Cramer, Chris

PY - 2018/10/26

Y1 - 2018/10/26

N2 - Motivated by the need to calculate liquid-phase free energies of species and equilibria involving halogen bonding, recent experimental data were used to optimize new Coulomb radii for Br and I for use in the SMD universal solvation model for calculating free energies of solvation. The use of the SMD model with these parameters for Br and I and the SMD values of all other parameters is called SMD18. After parametrization, the SMD18 model was tested for data not used in the parametrization. These data are standard-state free energies (equivalent to equilibrium constants) for 18 ionic equilibria involving Cl, Br, and I halogen bonding in acetonitrile, and the agreement of theory and experiment is satisfactory. The SMD18 model is then used to compare hydrogen bonding to halogen bonding and to reassess the interpretation of recent experiments.

AB - Motivated by the need to calculate liquid-phase free energies of species and equilibria involving halogen bonding, recent experimental data were used to optimize new Coulomb radii for Br and I for use in the SMD universal solvation model for calculating free energies of solvation. The use of the SMD model with these parameters for Br and I and the SMD values of all other parameters is called SMD18. After parametrization, the SMD18 model was tested for data not used in the parametrization. These data are standard-state free energies (equivalent to equilibrium constants) for 18 ionic equilibria involving Cl, Br, and I halogen bonding in acetonitrile, and the agreement of theory and experiment is satisfactory. The SMD18 model is then used to compare hydrogen bonding to halogen bonding and to reassess the interpretation of recent experiments.

KW - halogen bonding

KW - halogens

KW - intrinsic solvation model

KW - nitrogen heterocycles

KW - supramolecular chemistry

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Refined SMD Parameters for Bromine and Iodine Accurately Model Halogen-Bonding Interactions in Solution

Abstract

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Keywords

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NMGC: Nanoporous Materials Genome: Methods and Software to Optimize Gas Storage, Separations, and Catalysis (Phase 2)

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Refined SMD Parameters for Bromine and Iodine Accurately Model Halogen-Bonding Interactions in Solution

Abstract

Bibliographical note

Keywords

Access

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NMGC: Nanoporous Materials Genome: Methods and Software to Optimize Gas Storage, Separations, and Catalysis (Phase 2)

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