Aqueous Hydricity from Calculations of Reduction Potential and Acidity in Water

Hydricity, or hydride donating ability, is a thermodynamic value that helps define the reactivity of transition metal hydrides. To avoid some of the challenges of experimental hydricity measurements in water, a computational method for the determination of aqueous hydricity values has been developed...

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Veröffentlicht in:	The journal of physical chemistry. B 2016-12, Vol.120 (50), p.12911-12919
Hauptverfasser:	Brereton, Kelsey R, Bellows, Sarina M, Fallah, Hengameh, Lopez, Antonio A, Adams, Robert M, Miller, Alexander J. M, Jones, William D, Cundari, Thomas R
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creator	Brereton, Kelsey R Bellows, Sarina M Fallah, Hengameh Lopez, Antonio A Adams, Robert M Miller, Alexander J. M Jones, William D Cundari, Thomas R
description	Hydricity, or hydride donating ability, is a thermodynamic value that helps define the reactivity of transition metal hydrides. To avoid some of the challenges of experimental hydricity measurements in water, a computational method for the determination of aqueous hydricity values has been developed. With a thermochemical cycle involving deprotonation of the metal hydride (pK a), 2e – oxidation of the metal (E°), and 2e – reduction of the proton, hydricity values are provided along with other valuable thermodynamic information. The impact of empirical corrections (for example, calibrating reduction potentials with 2e – organic versus 1e – inorganic potentials) was assessed in the calculation of the reduction potentials, acidities, and hydricities of a series of iridium hydride complexes. Calculated hydricities are consistent with electronic trends and agree well with experimental values.
doi_str_mv	10.1021/acs.jpcb.6b09864
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title	Aqueous Hydricity from Calculations of Reduction Potential and Acidity in Water
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