Chelate effect: The importance of reorganization energy

E. I. Davydova; T. N. Sevastianova; A. Y. Timoshkin; A. V. Suvorov; G. Frenking

doi:10.1002/qua.20094

Chelate effect: The importance of reorganization energy

E. I. Davydova, T. N. Sevastianova, A. Y. Timoshkin, A. V. Suvorov, G. Frenking

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24 引用（Scopus）

摘要

The chelate effect has been theoretically studied at the Becke's three-parameter exchange functional and the gradient-corrected functional of Lee, Yang, and Paar/double-ζ polarization level of theory. The influence of ligand, metal, and halogen nature on the chelate effect was analyzed for complexes of group 14 element tetrahalides with monodentate and bidentate nitrogen-containing donors. It is shown that the large reorganization energy of the 2,2′-bipyridine ligand (≈32 kJ mol^-1) shadows the chelate effect. The same conclusion holds for other ligands, which undergo significant reorganization upon complex formation. 1,10-Phenanthroline does not have such a large reorganization energy, and its complexes are therefore more stable in the gas phase than are complexes with bipyridine.

源语言	英语
页（从-至）	419-425
页数	7
期刊	International Journal of Quantum Chemistry
卷	100
期	4 SPEC. ISS.
DOI	https://doi.org/10.1002/qua.20094
出版状态	已出版 - 15 11月 2004
已对外发布	是

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title = "Chelate effect: The importance of reorganization energy",

abstract = "The chelate effect has been theoretically studied at the Becke's three-parameter exchange functional and the gradient-corrected functional of Lee, Yang, and Paar/double-ζ polarization level of theory. The influence of ligand, metal, and halogen nature on the chelate effect was analyzed for complexes of group 14 element tetrahalides with monodentate and bidentate nitrogen-containing donors. It is shown that the large reorganization energy of the 2,2′-bipyridine ligand (≈32 kJ mol-1) shadows the chelate effect. The same conclusion holds for other ligands, which undergo significant reorganization upon complex formation. 1,10-Phenanthroline does not have such a large reorganization energy, and its complexes are therefore more stable in the gas phase than are complexes with bipyridine.",

keywords = "Bidentate ligands, Chelate effect, Germanium and tin tetrahalides, Reorganization energy, Silicon",

author = "Davydova, {E. I.} and Sevastianova, {T. N.} and Timoshkin, {A. Y.} and Suvorov, {A. V.} and G. Frenking",

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T1 - Chelate effect

T2 - The importance of reorganization energy

AU - Davydova, E. I.

AU - Sevastianova, T. N.

AU - Timoshkin, A. Y.

AU - Suvorov, A. V.

AU - Frenking, G.

PY - 2004/11/15

Y1 - 2004/11/15

N2 - The chelate effect has been theoretically studied at the Becke's three-parameter exchange functional and the gradient-corrected functional of Lee, Yang, and Paar/double-ζ polarization level of theory. The influence of ligand, metal, and halogen nature on the chelate effect was analyzed for complexes of group 14 element tetrahalides with monodentate and bidentate nitrogen-containing donors. It is shown that the large reorganization energy of the 2,2′-bipyridine ligand (≈32 kJ mol-1) shadows the chelate effect. The same conclusion holds for other ligands, which undergo significant reorganization upon complex formation. 1,10-Phenanthroline does not have such a large reorganization energy, and its complexes are therefore more stable in the gas phase than are complexes with bipyridine.

AB - The chelate effect has been theoretically studied at the Becke's three-parameter exchange functional and the gradient-corrected functional of Lee, Yang, and Paar/double-ζ polarization level of theory. The influence of ligand, metal, and halogen nature on the chelate effect was analyzed for complexes of group 14 element tetrahalides with monodentate and bidentate nitrogen-containing donors. It is shown that the large reorganization energy of the 2,2′-bipyridine ligand (≈32 kJ mol-1) shadows the chelate effect. The same conclusion holds for other ligands, which undergo significant reorganization upon complex formation. 1,10-Phenanthroline does not have such a large reorganization energy, and its complexes are therefore more stable in the gas phase than are complexes with bipyridine.

KW - Bidentate ligands

KW - Chelate effect

KW - Germanium and tin tetrahalides

KW - Reorganization energy

KW - Silicon

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VL - 100

SP - 419

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JO - International Journal of Quantum Chemistry

JF - International Journal of Quantum Chemistry

IS - 4 SPEC. ISS.

ER -

Chelate effect: The importance of reorganization energy

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