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Dithienylethene-Based Photoswitchable Phosphines for the Palladium-Catalyzed Stille Coupling Reaction

Anastasiia Sherstiuk, Agustı́ Lledós, Peter Lönnecke, Jordi Hernando, Rosa Marı́a Sebastián, Evamarie Hey‐Hawkins

2024Inorganic Chemistry14 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Homogeneous transition metal catalysis is a constantly developing field in chemical sciences. A growing interest in this area is photoswitchable catalysis, which pursues in situ modulation of catalyst activity through noninvasive light irradiation. Phosphorus ligands are excellent targets to accomplish this goal by introducing photoswitchable moieties; however, only a limited number of examples have been reported so far. In this work, we have developed a series of palladium complexes capable of catalyzing the Stille coupling reaction that contain photoisomerizable phosphine ligands based on dithienylethene switches. Incorporation of electron-withdrawing substituents into these dithienylethene moieties allows variation of the electron density on the phosphorus atom of the ligands upon light irradiation, which in turn leads to a modulation of the catalytic properties of the formed complexes and their activity in a model Stille coupling reaction. These results are supported by theoretical computations, which show that the energy barriers for the rate-determining steps of the catalytic cycle decrease when the photoswitchable phosphine ligands are converted to their closed state.

Topics & Concepts

Stille reactionChemistryPhosphineCatalysisPalladiumPhotochemistryCatalytic cycleCombinatorial chemistryTransition metalOrganic chemistryPhotochromic and Fluorescence ChemistryPorphyrin and Phthalocyanine ChemistryPhotoreceptor and optogenetics research
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