Issue 22, 2021, Issue in Progress

Low-energy optical switching of SO2 linkage isomerisation in single crystals of a ruthenium-based coordination complex

Abstract

Single crystals that behave as optical switches are desirable for a wide range of applications, from optical sensors to read–write memory media. A series of ruthenium-based complexes that exhibit optical switching in their single-crystal form via SO2 linkage photoisomerisation are of prospective interest for these technologies. This study explores the optical switching behaviour in one such complex, trans-[Ru(SO2)(NH3)4(H2O)]tosylate2 (1), in terms of its dark and photoinduced crystal structure, as well as its light and thermal decay characteristics, which are deduced by photocrystallography, single-crystal optical absorption spectroscopy and microscopy. Photocrystallography results reveal that a photoisomerisation level of 21.5(5)% is achievable in 1. Biphasic photochromic crystals of 1 were generated by applying green and then red light to switch on and off the η2-(OS)O photoisomer in different regions of a crystal. Heat is a known alternative to its thermal decay, whereby a method is demonstrated that employs optical absorption spectra to determine its activation energy of 30 kJ mol−1. This low-energy barrier to optical switching agrees well with computational studies on 1, as well as being comparable to activation energies in ruthenium-based nitrosyl linkage photoisomers that also display solid-state optical switching.

Graphical abstract: Low-energy optical switching of SO2 linkage isomerisation in single crystals of a ruthenium-based coordination complex

Supplementary files

Article information

Article type
Paper
Submitted
03 Mar 2021
Accepted
26 Mar 2021
First published
08 Apr 2021
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2021,11, 13183-13192

Low-energy optical switching of SO2 linkage isomerisation in single crystals of a ruthenium-based coordination complex

J. M. Cole, D. J. Gosztola and S. O. Sylvester, RSC Adv., 2021, 11, 13183 DOI: 10.1039/D1RA01696B

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