Electrochemical and chemical routes to hydride loss from an iridium dihydride

A. G. Walden; A. Kumar; N. Lease; A. S. Goldman; A. J.M. Miller

doi:10.1039/c6dt00522e

Electrochemical and chemical routes to hydride loss from an iridium dihydride

A. G. Walden, A. Kumar, N. Lease, A. S. Goldman, A. J.M. Miller

School of Arts and Sciences, Chemistry & Chemical Biology

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

4 Scopus citations

Abstract

With a view towards replacing sacrificial hydrogen acceptors in alkane dehydrogenation catalysis, electrochemical methods for oxidative activation of a pincer-ligated iridium hydride intermediate were explored. A 1H⁺/2e^- oxidation process was observed in THF solvent, with net hydride loss leading to a reactive cationic intermediate that can be trapped by chloride. Analogous reactivity was observed with the concerted hydride transfer reagent Ph₃C⁺, connecting chemical and electrochemical hydride loss pathways.

Original language	English (US)
Pages (from-to)	9766-9769
Number of pages	4
Journal	Dalton Transactions
Volume	45
Issue number	24
DOIs	https://doi.org/10.1039/c6dt00522e
State	Published - 2016

All Science Journal Classification (ASJC) codes

Inorganic Chemistry

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10.1039/c6dt00522e

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abstract = "With a view towards replacing sacrificial hydrogen acceptors in alkane dehydrogenation catalysis, electrochemical methods for oxidative activation of a pincer-ligated iridium hydride intermediate were explored. A 1H+/2e- oxidation process was observed in THF solvent, with net hydride loss leading to a reactive cationic intermediate that can be trapped by chloride. Analogous reactivity was observed with the concerted hydride transfer reagent Ph3C+, connecting chemical and electrochemical hydride loss pathways.",

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AU - Walden, A. G.

AU - Kumar, A.

AU - Lease, N.

AU - Goldman, A. S.

AU - Miller, A. J.M.

PY - 2016

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AB - With a view towards replacing sacrificial hydrogen acceptors in alkane dehydrogenation catalysis, electrochemical methods for oxidative activation of a pincer-ligated iridium hydride intermediate were explored. A 1H+/2e- oxidation process was observed in THF solvent, with net hydride loss leading to a reactive cationic intermediate that can be trapped by chloride. Analogous reactivity was observed with the concerted hydride transfer reagent Ph3C+, connecting chemical and electrochemical hydride loss pathways.

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JF - Dalton Transactions

IS - 24

ER -

Electrochemical and chemical routes to hydride loss from an iridium dihydride

Abstract

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