Prediction of reduction potentials from calculated electron affinities for metal-salen compounds

Sarah B. Bateni; Kellie R. England; Anthony T. Galatti; Handeep Kaur; Victor A. Mendiola; Alexander R. Mitchell; Michael H. Vu; Benjamin F. Gherman; James A. Miranda

doi:10.3762/bjoc.5.82

Beilstein Journal of Organic Chemistry (Dec 2009)

Prediction of reduction potentials from calculated electron affinities for metal-salen compounds

Sarah B. Bateni,
Kellie R. England,
Anthony T. Galatti,
Handeep Kaur,
Victor A. Mendiola,
Alexander R. Mitchell,
Michael H. Vu,
Benjamin F. Gherman,
James A. Miranda

Affiliations

Sarah B. Bateni: Department of Chemistry, California State University, Sacramento, 6000 J Street, Sacramento, CA 95819-6057, United States
Kellie R. England: Department of Chemistry, California State University, Sacramento, 6000 J Street, Sacramento, CA 95819-6057, United States
Anthony T. Galatti: Department of Chemistry, California State University, Sacramento, 6000 J Street, Sacramento, CA 95819-6057, United States
Handeep Kaur: Department of Chemistry, California State University, Sacramento, 6000 J Street, Sacramento, CA 95819-6057, United States
Victor A. Mendiola: Department of Chemistry, California State University, Sacramento, 6000 J Street, Sacramento, CA 95819-6057, United States
Alexander R. Mitchell: Department of Chemistry, California State University, Sacramento, 6000 J Street, Sacramento, CA 95819-6057, United States
Michael H. Vu: Department of Chemistry, California State University, Sacramento, 6000 J Street, Sacramento, CA 95819-6057, United States
Benjamin F. Gherman: Department of Chemistry, California State University, Sacramento, 6000 J Street, Sacramento, CA 95819-6057, United States
James A. Miranda: Department of Chemistry, California State University, Sacramento, 6000 J Street, Sacramento, CA 95819-6057, United States

DOI: https://doi.org/10.3762/bjoc.5.82
Journal volume & issue: Vol. 5, no. 1
p. 82

Abstract

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The electron affinities (EAs) of a training set of 19 metal-salen compounds were calculated using density functional theory. Concurrently, the experimental reduction potentials for the training set were measured using cyclic voltammetry. The EAs and reduction potentials were found to be linearly correlated by metal. The reduction potentials of a test set of 14 different metal-salens were then measured and compared to the predicted reduction potentials based upon the training set correlation. The method was found to work well, with a mean unsigned error of 99 mV for the entire test set. This method could be used to predict the reduction potentials of a variety of metal-salen compounds, an important class of coordination compounds used in synthetic organic electrochemistry as electrocatalysts.

Published in Beilstein Journal of Organic Chemistry

ISSN: 1860-5397 (Online)
Publisher: Beilstein-Institut
Country of publisher: Germany
LCC subjects: Science: Chemistry: Organic chemistry
Website: http://www.beilstein-journals.org/bjoc

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