Issue 13, 2022

Solvent-modulated proton-coupled electron transfer in an iridium complex with an ESIPT ligand

Abstract

Proton-coupled electron transfer (PCET), an essential process in nature with a well-known example of photosynthesis, has recently been employed in metal complexes to improve the energy conversion efficiency; however, a profound understanding of the mechanism of PCET in metal complexes is still lacking. In this study, we synthesized cyclometalated Ir complexes strategically designed to exploit the excited-state intramolecular proton transfer (ESIPT) of the ancillary ligand and studied their photoinduced PCET in both aprotic and protic solvent environments using femtosecond transient absorption spectroscopy and density functional theory (DFT) and time-dependent DFT calculations. The data reveal solvent-modulated PCET, where charge transfer follows proton transfer in an aprotic solvent and the temporal order of charge transfer and proton transfer is reversed in a protic solvent. In the former case, ESIPT from the enol form to the keto form, which precedes the charge transfer from Ir to the ESIPT ligand, improves the efficiency of metal-to-ligand charge transfer. This finding demonstrates the potential to control the PCET reaction in the desired direction and the efficiency of charge transfer by simply perturbing the external hydrogen-bonding network with the solvent.

Graphical abstract: Solvent-modulated proton-coupled electron transfer in an iridium complex with an ESIPT ligand

Supplementary files

Article information

Article type
Edge Article
Submitted
29 Dec 2021
Accepted
03 Mar 2022
First published
05 Mar 2022
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2022,13, 3809-3818

Solvent-modulated proton-coupled electron transfer in an iridium complex with an ESIPT ligand

S. Kim, J. Choi, D. W. Cho, M. Ahn, S. Eom, J. Kim, K. Wee and H. Ihee, Chem. Sci., 2022, 13, 3809 DOI: 10.1039/D1SC07250A

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