Issue 45, 2020

In need of a second-hand? The second coordination sphere of ruthenium complexes enables water oxidation with improved catalytic activity

Abstract

Artificial photosynthesis enables the conversion and storage of solar energy into chemical energy, producing substances with high energy content. In this sense, the oxidation of water can provide the H+ ions and electrons needed for the energy conversion and storage processes. Since 2005, it has been known that single-site coordination compounds can act as water oxidation catalysts (WOC). Improvement of the catalytic activity, however, has occurred mainly by the choice of the redox-active metal matching with a series of compatible ligands, more specifically, paying attention to the electronic characteristics of the organic framework of the first coordination sphere. Recently, the use of dangling bases dramatically increased the catalytic activity of new species as WOC, taking advantage of what is called a second coordination sphere. With this assistance, some compounds were shown to reach turnover frequencies (TOF) of 104 s−1, while compounds with the first coordination sphere commonly exhibit TOF ca. 10−1 s−1. In this manuscript, we discuss the concept, together with a number of examples, of the use of controlled interactions between the first and second coordination spheres that have been wielded to improve the performance of ruthenium-centered complexes as WOC in water oxidation reactions.

Graphical abstract: In need of a second-hand? The second coordination sphere of ruthenium complexes enables water oxidation with improved catalytic activity

Article information

Article type
Perspective
Submitted
23 Mha 2020
Accepted
09 Nhl 2020
First published
12 Nhl 2020

Dalton Trans., 2020,49, 16034-16046

In need of a second-hand? The second coordination sphere of ruthenium complexes enables water oxidation with improved catalytic activity

T. A. Matias, A. F. Keppler and F. H. Bartoloni, Dalton Trans., 2020, 49, 16034 DOI: 10.1039/D0DT02958K

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