Aminoalkyl radicals as halogen-atom transfer agents for activation of alkyl and aryl halides

Science, Journal Year: 2020, Volume and Issue: 367(6481), P. 1021 - 1026

Published: Feb. 27, 2020

Organic halides are important building blocks in synthesis, but their use (photo)redox chemistry is limited by low reduction potentials. Halogen-atom transfer remains the most reliable approach to exploit these substrates radical processes despite its requirement for hazardous reagents and initiators such as tributyltin hydride. In this study, we demonstrate that α-aminoalkyl radicals, easily accessible from simple amines, promote homolytic activation of carbon-halogen bonds with a reactivity profile mirroring classical tin radicals. This strategy conveniently engages alkyl aryl wide range redox transformations construct sp3-sp3, sp3-sp2, sp2-sp2 carbon-carbon under mild conditions high chemoselectivity.

Language: Английский

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Photocatalytic Late-Stage C–H Functionalization

Chemical Reviews, Journal Year: 2023, Volume and Issue: 123(8), P. 4237 - 4352

Published: Jan. 24, 2023

The emergence of modern photocatalysis, characterized by mildness and selectivity, has significantly spurred innovative late-stage C–H functionalization approaches that make use low energy photons as a controllable source. Compared to traditional strategies, photocatalysis paves the way toward complementary and/or previously unattainable regio- chemoselectivities. Merging compelling benefits with workflow offers potentially unmatched arsenal tackle drug development campaigns beyond. This Review highlights photocatalytic strategies small-molecule drugs, agrochemicals, natural products, classified according targeted bond newly formed one. Emphasis is devoted identifying, describing, comparing main mechanistic scenarios. draws critical comparison between established ionic chemistry photocatalyzed radical-based manifolds. aims establish current state-of-the-art illustrate key unsolved challenges be addressed in future. authors aim introduce general readership functionalization, specialist practitioners evaluation methodologies, potential for improvement, future uncharted directions.

Language: Английский

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Advances in theE → ZIsomerization of Alkenes Using Small Molecule Photocatalysts

Chemical Reviews, Journal Year: 2021, Volume and Issue: 122(2), P. 2650 - 2694

Published: Aug. 27, 2021

Geometrical E → Z alkene isomerization is intimately entwined in the historical fabric of organic photochemistry and enjoying a renaissance (Roth et al. Angew. Chem., Int. Ed. Engl. 1989 28, 1193–1207). This consequence fundamental stereochemical importance Z-alkenes, juxtaposed with frustrations thermal reactivity that are rooted microscopic reversibility. Accessing excited state paradigms allow this latter obstacle to be circumnavigated by exploiting subtle differences photophysical behavior substrate product chromophores: provides molecular basis for directionality. While direct irradiation operationally simple, photosensitization via selective energy transfer enables augmentation repertoire include substrates not directly photons. Through sustained innovation, an impressive portfolio tailored small molecule catalysts range triplet energies now widely available facilitate contra-thermodynamic thermo-neutral reactions generate Z-alkene fragments. review intended serve as practical guide covering geometric alkenes enabled catalysis from 2000 2020, logical sequel excellent treatment Dugave Demange (Chem. Rev. 2003 103, 2475–2532). The mechanistic foundations underpinning selectivity discussed together induction models rationales explain counterintuitive directionality these processes which very distinguish product. Implications subsequent stereospecific transformations, application total synthesis, regioselective polyene isomerization, spatiotemporal control pre-existing configuration broader sense discussed.

Language: Английский

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Nitrogen-Centered Radicals in Functionalization of sp² Systems: Generation, Reactivity, and Applications in Synthesis

Chemical Reviews, Journal Year: 2022, Volume and Issue: 122(9), P. 8181 - 8260

Published: March 14, 2022

The chemistry of nitrogen-centered radicals (NCRs) has plentiful applications in organic synthesis, and they continue to expand as our understanding these reactive species increases. utility intermediates is demonstrated the recent advances C–H amination (di)amination alkenes. Synthesis previously challenging structures can be achieved by efficient functionalization sp2 moieties without prefunctionalization, allowing for faster more streamlined synthesis. This Review addresses generation, reactivity, application NCRs, including, but not limited to, iminyl, aminyl, amidyl, aminium species. Contributions from early discovery up most examples have been highlighted, covering radical initiation, thermolysis, photolysis, and, recently, photoredox catalysis. Radical-mediated intermolecular (hetero)arenes occur with a variety complex amine precursors, generating aniline derivatives, an important class drug development. Functionalization olefins achievable high anti-Markovnikov regioselectivity allows access difunctionalized when intermediate carbon are trapped. Additionally, reactivity NCRs harnessed rapid construction N-heterocycles such pyrrolidines, phenanthridines, quinoxalines, quinazolinones.

Language: Английский

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Reductive Cross-Coupling of Unreactive Electrophiles

Accounts of Chemical Research, Journal Year: 2022, Volume and Issue: 55(17), P. 2491 - 2509

Published: Aug. 11, 2022

ConspectusTransition-metal-catalyzed reductive coupling of electrophiles has emerged as a powerful tool for the construction molecules. While major achievements have been made in field cross-couplings between organic halides and pseudohalides, an increasing number reports demonstrates reactions involving more readily available, low-cost, stable, but unreactive electrophiles. This account summarizes recent results our laboratory focusing on this topic. These findings typically include deoxygenative C–C alcohols, alkylation alkenyl acetates, C–Si chlorosilanes, C–Ge chlorogermanes.The alcohols with is synthetically appealing, potential chemistry remains to be disclosed. Our initial study focused reaction allylic aryl bromides by combination nickel Lewis acid catalysis. method offers selectivity that opposite classic Tsuji–Trost reactions. Further investigation benzylic led foundation dynamic kinetic cross-coupling strategy applications nickel-catalyzed arylation cobalt-catalyzed enantiospecific alkenylation alcohols. The titanium catalysis was later established produce carbon radicals directly from unactivated tertiary via C–OH cleavage. development their fragments delivers new methods all-carbon quaternary centers. shown high functionalization leaving primary secondary intact. Alkenyl acetates are inexpensive, environmentally friendly considered most attractive reagents. benzyl ammoniums alkyl mild approaches conversion ketones into aliphatic alkenes.Extensive studies enabled us extend cross-electrophile silicon germanium chemistry. harness ready availability chlorosilanes chlorogermanes suffer challenge low reactivity toward transition metals. Under catalysis, broad range couple well vinyl- hydrochlorosilanes. use partners formation functionalized alkylsilanes. seems less substrate-dependent, various common aryl, alkenyl, In general, functionalities such Grignard-sensitive groups (e.g., acid, amide, alcohol, ketone, ester), acid-sensitive ketal THP protection), fluoride chloride, bromide, tosylate mesylate, silyl ether, amine tolerated. provide access organosilicon organogermanium compounds, some which challenging obtain otherwise.

Language: Английский

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N-Heterocyclic carbene-catalyzed deaminative cross-coupling of aldehydes with Katritzky pyridinium salts

Chemical Science, Journal Year: 2020, Volume and Issue: 11(12), P. 3192 - 3197

Published: Jan. 1, 2020

By employing an N-heterocyclic carbene (NHC) catalyst, we developed a versatile catalytic system that enables deaminative cross-coupling reactions of aldehydes with redox-active pyridinium salts.

Language: Английский

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Frustrated Lewis-Pair-Meditated Selective Single Fluoride Substitution in Trifluoromethyl Groups

Journal of the American Chemical Society, Journal Year: 2020, Volume and Issue: 142(5), P. 2572 - 2578

Published: Jan. 14, 2020

Single fluoride substitution in trifluoromethylarenes is an ongoing synthetic challenge that often leads to "over-reaction", where multiple fluorides are replaced. Development of this reaction would allow simple access a vast range difluoromethyl derivatives current interest pharmaceutical, agrochemistry, and materials sciences. Using catalytic frustrated Lewis pair approach, we have developed generic protocol allows single one trifluoromethyl groups with neutral phosphine pyridine bases. The resulting phosphonium pyridinium salts can be further functionalized via nucleophilic substitution, photoredox coupling, electrophilic transfer reactions allowing the generation array products.

Language: Английский

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Site-Selective Direct C–H Pyridylation of Unactivated Alkanes by Triplet Excited Anthraquinone

Journal of the American Chemical Society, Journal Year: 2021, Volume and Issue: 143(7), P. 3003 - 3012

Published: Feb. 8, 2021

Site-selective C-H functionalization in chemical feedstocks is a challenging and useful reaction the broad field of research. Here, we report modular photochemical platform for site-selective pyridylation unactivated hydrocarbons via unique synergistic effects triplet excited anthraquinone an amidyl radical-based reverse hydrogen atom transfer (RHAT) agent. The selective tertiary secondary C(sp3)-H bonds abundant was achieved by employing various N-aminopyridinium salts highly fashion, thus providing new catalytic system direct construction high-value-added compounds under ambient conditions. Moreover, this operationally simple protocol applicable to variety linear-, branched-, cyclo-alkanes more complex molecules with high degrees site selectivity visible-light conditions, which provides rapid straightforward access versatile synthons upgrading mild, metal-free

Language: Английский

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Generation of non-stabilized alkyl radicals from thianthrenium salts for C–B and C–C bond formation

Nature Communications, Journal Year: 2021, Volume and Issue: 12(1)

Published: July 26, 2021

Abstract Sulfonium salts bearing a positively charged sulfur atom with three organic substituents have intrigued chemists for more than century their unusual structures and high chemical reactivity. These compounds are known to undergo facile single-electron reduction emerge as valuable alternative source of aryl radicals synthesis. However, the generation non-stabilized alkyl from sulfonium has been challenge several decades. Here we report treatment S -(alkyl) thianthrenium generate key intermediates granting controlled selective outcome ensuing reactions under mild photoredox conditions. The value these reagents demonstrated through efficient construction alkylboronates other transformations, including heteroarylation, alkylation, alkenylation, alkynylation. developed method is practical, provides opportunity convert C–OH bond C–B C–C bonds.

Language: Английский

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Recent advances in radical chemistry proceeding through pro-aromatic radicals

Chem, Journal Year: 2021, Volume and Issue: 7(8), P. 2060 - 2100

Published: April 21, 2021

Language: Английский

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