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Protocols for Understanding the Redox Behavior of Copper-Containing Systems.


ABSTRACT: Suitability of single-reference density functional theory (DFT) methods for the calculation of redox potentials of copper-containing macrocycle complexes was confirmed by the use of T 1 diagnostics along with a verification of negligible spin contamination or wave function instability. When examining the effect of improvement in the cc-pVnZ basis set series on calculated redox potentials, the results readily converged at the cc-pVTZ level. The all-electron Def2-TZVPP basis set is shown to be a suitable choice of a basis set for the calculation of redox potentials when utilizing a cc-pVTZ geometry. The best-performing model chemistries are determined to be the M06/polarizable continuum model (PCM); therefore, a scheme for redox potential calculations of copper macrocycles using either M06/cc-pVTZ with PCM solvation is proposed to reliably reproduce experimental trends.

SUBMITTER: Malcomson T 

PROVIDER: S-EPMC9753522 | biostudies-literature | 2022 Dec

REPOSITORIES: biostudies-literature

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Protocols for Understanding the Redox Behavior of Copper-Containing Systems.

Malcomson Thomas T   Repiščák Peter P   Erhardt Stefan S   Paterson Martin J MJ  

ACS omega 20221130 49


Suitability of single-reference density functional theory (DFT) methods for the calculation of redox potentials of copper-containing macrocycle complexes was confirmed by the use of <i>T</i> <sub>1</sub> diagnostics along with a verification of negligible spin contamination or wave function instability. When examining the effect of improvement in the cc-pV<i>n</i>Z basis set series on calculated redox potentials, the results readily converged at the cc-pVTZ level. The all-electron Def2-TZVPP bas  ...[more]

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