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Light-Activated Olefin Metathesis: Catalyst Development, Synthesis, and Applications

Or Eivgi, Ravindra S. Phatake, Noy B. Nechmad, N. Gabriel Lemcoff

2020Accounts of Chemical Research65 citationsDOIOpen Access PDF

Abstract

-dichlororuthenium benzylidenes opened the doorway for the systematic development of new and efficient light-activated olefin metathesis catalysts and catalytic chromatic-orthogonal synthetic schemes. Following this, ways to disrupt the ligand-to-metal bond to accelerate the isomerization process that produced the active precatalyst were actively pursued. Thus, we summarize herein the original thermal activation experiments and how they brought about the discoveries of photoactivation in the sulfur-chelated benzylidene family of catalysts. The specific wavelengths of light that were used to dissociate the sulfur-ruthenium bond allowed us to develop noncommutative catalytic chromatic-orthogonal processes and to combine other photochemical reactions with photoinduced olefin metathesis, including using external light-absorbing molecules as "sunscreens" to achieve novel selectivities. Alteration of the ligand sphere, including modifications of the N-heterocyclic carbene (NHC) ligand and the introduction of cyclic alkyl amino carbene (CAAC) ligands, produced more efficient light-induced activity and special chemical selectivity. The use of electron-rich sulfoxides and, more prominently, phosphites as the agents that induce latency widened the spectrum of light-induced olefin metathesis reactions even further by expanding the colors of light that may now be used to activate the catalysts, which can be used in applications such as stereolithography and 3D printing of tough metathesis-derived polymers.

Topics & Concepts

ChemistryCatalysisRutheniumLigand (biochemistry)MetathesisCarbenePhotochemistrySalt metathesis reactionCombinatorial chemistryCatalytic cycleOrganic chemistryPolymerizationPolymerReceptorBiochemistrySynthetic Organic Chemistry MethodsSulfur-Based Synthesis TechniquesCatalytic Alkyne Reactions
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