Multistate Redox Switching and Near-Infrared Electrochromism Based on a Star-Shaped Triruthenium Complex with a Triarylamine Core.
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ABSTRACT: A star-shaped cyclometalated triruthenium complex 2(PF6)n (n?=?3 and 4) with a triarylamine core was synthesized, which functions as a molecular switch with five well-separated redox states in both solution and film states. The single-crystal X-ray structure of 2(PF6)3 is presented. This complex displays four consecutive one-electron redox waves at +0.082, +0.31, +0.74, and +1.07?V vs Ag/AgCl. In each redox state, it shows significantly different NIR absorptions with ?max of 1590?nm for 24+, 1400?nm for 25+, 1060?nm for 26+, and 740?nm for 27+, respectively. Complex 24+ shows a single-line EPR signal at g?=?2.060, while other redox states are all EPR inactive. The spin density distributions and NIR absorptions in different redox states were rationalized by DFT and TDDFT calculations. A vinyl-substituted triruthenium analogous 3(PF6)4 was prepared, which was successfully polymerized on ITO glass electrode surfaces by reductive electropolymerization. The obtained poly-3n+/ITO film was characterized by FTIR, AFM, and SEM analysis. It shows four well-defined redox couples and reversible multistate NIR electrochromism. In particular, a contrast ratio (?T%) up to 63% was achieved at the optic telecommunication wavelength (1550?nm).
SUBMITTER: Tang JH
PROVIDER: S-EPMC5059756 | biostudies-literature | 2016 Oct
REPOSITORIES: biostudies-literature
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