Timothy M. Monos scite author profile

Alkene aminoarylation with a single, bifunctional reagent is a concise synthetic strategy. We report a catalytic protocol for the addition of arylsulfonylacetamides across electron-rich alkenes with complete anti-Markovnikov regioselectivity and excellent diastereoselectivity to provide 2,2-diarylethylamines. In this process, single-electron alkene oxidation enables carbon-nitrogen bond formation to provide a key benzylic radical poised for a Smiles-Truce 1,5-aryl shift. This reaction is redox-neutral, exhibits broad functional group compatibility, and occurs at room temperature with loss of sulfur dioxide. As this process is driven by visible light, uses readily available starting materials, and demonstrates convergent synthesis, it is well suited for use in a variety of synthetic endeavors.

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Transition-metal catalyzed valorization of lignin: the key to a sustainable carbon-neutral future

Kärkäs

et al. 2016

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The development of a sustainable, carbon-neutral biorefinery has emerged as a prominent scientific and engineering goal of the 21st century. As petroleum has become less accessible, biomass-based carbon sources have been investigated for utility in fuel production and commodity chemical manufacturing. One underutilized biomaterial is lignin; however, its highly crosslinked and randomly polymerized composition have rendered this biopolymer recalcitrant to existing chemical processing. More recently, insight into lignin's molecular structure has reinvigorated chemists to develop catalytic methods for lignin depolymerization. This review examines the development of transition-metal catalyzed reactions and the insights shared between the homogeneous and heterogeneous catalytic systems towards the ultimate goal of valorizing lignin to produce value-added products.

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Design and Implementation of a Catalytic Electron Donor–Acceptor Complex Platform for Radical Trifluoromethylation and Alkylation

et al. 2020

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Electron donor−acceptor (EDA) complexes can controllably generate radicals under mild conditions through selective photoexcitation events. However, unproductive reactivity from fast deactivation of the photoexcited complexes through back electron transfer has slowed the development of EDA complexes in synthetic methodology. Here, we disclose the study of EDA complexes derived from 2-methoxynaphthalene donor and acylated ethyl isonicotinate N-oxide acceptor that undergo a fast N−O bond fragmentation event upon photoexcitation. This reaction design not only overcomes the limitations of back electron transfer but also enables regeneration of the donor species, representing a rare example of EDA photochemistry in a catalytic regime. The synthetic utility is demonstrated through visible light-driven radical trifluoromethylation and Minisci alkylation reactions. The scalability of the EDA complex-promoted reaction is evidenced by the successful multigram-scale trifluoromethylation of methyl N-Boc pyrrole-2-carboxylate in a continuous flow manifold.

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Visible light mediated reductions of ethers, amines and sulfides

Monos

Magallanes

Sebren

et al. 2016

Journal of Photochemistry and Photobiology A: Chemistry

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Visible light-mediated photoredox catalysis enables the chemoselective reduction of activated carbonheteroatom bonds as a function of reduction potential. The expansion of the scope of C-X bond reductions towards less activated motifs, such as ethers, amines and sulfides, is important to both organic synthesis and macromolecular degradation method development. In the present report, exploration of photoredox catalysis in alcoholic solvents mediated a decrease in the super-stoichiometric use of i Pr 2 NEt and HCO 2 H in the reduction of α-keto ethers, amines and sulfides. Additionally, in the absence of fragmentation, CC bond formation was afforded, suggesting an intermediate ketyl radicals are present in these transformations. * Yields isolated for substrates 8, 9, 10 were isolated in 85-90% yield when reacted under the first generation conditions (see Fig 1 (A)).

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Microwave-Assisted Synthesis of Heteroleptic Ir(III)⁺ Polypyridyl Complexes

et al. 2016

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We report a rapid, one-pot, operationally simple, and scalable preparation of valuable cationic heteroleptic iridium(III) polypyridyl photosensitizers. This method takes advantage of two consecutive microwave irradiation steps in the same reactor vial, avoiding the need for additional reaction purifications. A number of known heteroleptic iridium(III) complexes are prepared in up to 96% yield. Notably, this method is demonstrated to provide the synthetically versatile photosensitizer [Ir(ppy)2(dtbbpy)]PF6 in >1 g quantities in less than 5 h of bench time. We envision this method will help accelerate future developments in visible-light-dependent chemistry.

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Timothy M. Monos

Arylsulfonylacetamides as bifunctional reagents for alkene aminoarylation

Transition-metal catalyzed valorization of lignin: the key to a sustainable carbon-neutral future

Design and Implementation of a Catalytic Electron Donor–Acceptor Complex Platform for Radical Trifluoromethylation and Alkylation

Visible light mediated reductions of ethers, amines and sulfides

Microwave-Assisted Synthesis of Heteroleptic Ir(III)⁺ Polypyridyl Complexes

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About

Timothy M. Monos

Arylsulfonylacetamides as bifunctional reagents for alkene aminoarylation

Transition-metal catalyzed valorization of lignin: the key to a sustainable carbon-neutral future

Design and Implementation of a Catalytic Electron Donor–Acceptor Complex Platform for Radical Trifluoromethylation and Alkylation

Visible light mediated reductions of ethers, amines and sulfides

Microwave-Assisted Synthesis of Heteroleptic Ir(III)+ Polypyridyl Complexes

Contact Info

Product

Resources

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Microwave-Assisted Synthesis of Heteroleptic Ir(III)⁺ Polypyridyl Complexes