Oxy-Alkylation of Allylamines with Unactivated Alkyl Bromides and CO2 via Visible-Light-Driven Palladium Catalysis DOI
Liang Sun, Jian‐Heng Ye, Wen‐Jun Zhou

и другие.

Organic Letters, Год журнала: 2018, Номер 20(10), С. 3049 - 3052

Опубликована: Май 2, 2018

A selective oxy-alkylation of allylamines with unactivated alkyl bromides and CO2 via visible-light-driven palladium catalysis is reported. The commercially available Pd(PPh3)4 used as the sole catalyst in this three-component reaction. variety tertiary, secondary, primary undergo reactions to generate important 2-oxazolidinones high yields selectivity. mild reaction conditions, easy scalability, facile derivatization products provide great potential for application organic synthesis pharmaceutical chemistry.

Язык: Английский

Visible Light-Induced Transition Metal Catalysis DOI
Kelvin Pak Shing Cheung, Sumon Sarkar, Vladimir Gevorgyan

и другие.

Chemical Reviews, Год журнала: 2021, Номер 122(2), С. 1543 - 1625

Опубликована: Окт. 8, 2021

In recent years, visible light-induced transition metal catalysis has emerged as a new paradigm in organic photocatalysis, which led to the discovery of unprecedented transformations well improvement known reactions. this subfield complex serves double duty by harvesting photon energy and then enabling bond forming/breaking events mostly via single catalytic cycle, thus contrasting established dual photocatalysis an exogenous photosensitizer is employed. addition, approach often synergistically combines catalyst–substrate interaction with photoinduced process, feature that uncommon conventional photoredox chemistry. This Review describes early development advances emerging field.

Язык: Английский

Процитировано

560

Remote C–H Functionalization via Selective Hydrogen Atom Transfer DOI
David A. Nagib,

Leah M. Stateman,

Kohki M. Nakafuku

и другие.

Synthesis, Год журнала: 2018, Номер 50(08), С. 1569 - 1586

Опубликована: Фев. 12, 2018

The selective functionalization of remote C–H bonds via intramolecular hydrogen atom transfer (HAT) is transformative for organic synthesis. This radical-mediated strategy provides access to novel reactivity that complementary closed-shell pathways. As modern methods mild generation radicals are continually developed, inherent selectivity paradigms HAT mechanisms offer unparalleled opportunities developing new strategies functionalization. review outlines the history, recent advances, and mechanistic underpinnings as a guide addressing ongoing challenges in this arena. 1 Introduction 2 Nitrogen-Centered Radicals 2.1 sp3 N-Radical Initiation 2.2 sp2 3 Oxygen-Centered 3.1 Carbonyl Diradical 3.2 Alkoxy Radical 3.3 Non-alkoxy 4 Carbon-Centered 4.1 C-Radical 4.2 5 Conclusion

Язык: Английский

Процитировано

419

Toolbox for Distal C–H Bond Functionalizations in Organic Molecules DOI

Soumya Kumar Sinha,

Srimanta Guin,

Sudip Maiti

и другие.

Chemical Reviews, Год журнала: 2021, Номер 122(6), С. 5682 - 5841

Опубликована: Окт. 18, 2021

Transition-metal-catalyzed C–H activation has developed a contemporary approach to the omnipresent area of retrosynthetic disconnection. Scientific researchers have been tempted take help this methodology plan their synthetic discourses. This paradigm shift helped in development industrial units as well, making synthesis natural products and pharmaceutical drugs step-economical. In vast zone bond activation, functionalization proximal bonds gained utmost popularity. Unlike bonds, distal is more strenuous requires distinctly specialized techniques. review, we compiled various methods adopted functionalize mechanistic insights within each these procedures, scope methodology. With give complete overview expeditious progress made field organic chemistry while also highlighting its pitfalls, thus leaving open for further modifications.

Язык: Английский

Процитировано

387

Transition Metal-Catalyzed Organic Reactions under Visible Light: Recent Developments and Future Perspectives DOI
Wan‐Min Cheng, Rui Shang

ACS Catalysis, Год журнала: 2020, Номер 10(16), С. 9170 - 9196

Опубликована: Июль 20, 2020

The development of transition metal (TM) catalysis for organic synthesis under visible light without recourse to typical photoredox catalysts has become a rapidly growing area research and been actively explored in the past several years. Distinct from extensively developed catalysis, which photocatalyst generally does not directly participate bond-forming process, photocatalyst/TM synergistic absorbs photon energy transfers TM catalyst through redox or transfer this Review focuses on summarizing recent developments photocatalytic reactions that use complexes both absorb catalytic bond formation involving covalently bonded intermediate. contents are categorized by used (Pd, Cu, Co, Ni, Mn, Au, Rh, Fe, Ru), with descending sequence according number examples reported each metal, provide an overview April 2020. Future perspectives personal opinions regarding expanding field also discussed.

Язык: Английский

Процитировано

326

Irradiation-Induced Heck Reaction of Unactivated Alkyl Halides at Room Temperature DOI

Wang Guang-zu,

Rui Shang, Wan‐Min Cheng

и другие.

Journal of the American Chemical Society, Год журнала: 2017, Номер 139(50), С. 18307 - 18312

Опубликована: Ноя. 8, 2017

The palladium-catalyzed Mizoroki–Heck reaction is arguably one of the most significant carbon–carbon bond-construction reactions to be discovered in last 50 years, with a tremendous number applications production chemicals. This Nobel-Prize-winning transformation has yet overcome obstacle its general application range alkyl electrophiles, especially tertiary halides that possess eliminable β-hydrogen atoms. Whereas cross-coupling utilize ground-state reactivity palladium complexes under thermal conditions and generally apply single ligand system, we report Heck proceeds smoothly at room temperature variety tertiary, secondary, primary bromides upon irradiation blue light-emitting diodes presence dual phosphine system. We rationalize this unprecedented achieved by utilizing photoexcited-state complex enhance oxidative addition suppress undesired β-hydride elimination.

Язык: Английский

Процитировано

286

C–H functionalization reactions enabled by hydrogen atom transfer to carbon-centered radicals DOI Creative Commons
Sumon Sarkar, Kelvin Pak Shing Cheung, Vladimir Gevorgyan

и другие.

Chemical Science, Год журнала: 2020, Номер 11(48), С. 12974 - 12993

Опубликована: Янв. 1, 2020

Intramolecular and intermolecular HAT to C-centered radicals enables selective C–H functionalization of organic molecules.

Язык: Английский

Процитировано

277

Catalysis with Palladium Complexes Photoexcited by Visible Light DOI
Padon Chuentragool, Daria Kurandina, Vladimir Gevorgyan

и другие.

Angewandte Chemie International Edition, Год журнала: 2019, Номер 58(34), С. 11586 - 11598

Опубликована: Янв. 2, 2019

Abstract Palladium catalysis induced by visible light is an emerging field of catalysis. In contrast to classical reactions catalyzed Pd complexes in the ground state, which mostly proceed through two‐electron redox processes, mechanisms these new methods based on photoexcited usually operate transfer a single electron. Such processes lead putative hybrid Pd/radical species, exhibit both radical and Pd‐type reactivity. This Minireview highlights recent progress this rapidly growing area.

Язык: Английский

Процитировано

258

Visible‐Light‐Driven Palladium‐Catalyzed Radical Alkylation of C−H Bonds with Unactivated Alkyl Bromides DOI
Wen‐Jun Zhou,

Guangmei Cao,

Shen Guo

и другие.

Angewandte Chemie International Edition, Год журнала: 2017, Номер 56(49), С. 15683 - 15687

Опубликована: Окт. 19, 2017

Abstract Reported herein is a novel visible‐light photoredox system with Pd(PPh 3 ) 4 as the sole catalyst for realization of first direct cross‐coupling C(sp )−H bonds in N‐aryl tetrahydroisoquinolines unactivated alkyl bromides. Moreover, intra‐ and intermolecular alkylations heteroarenes were also developed under mild reaction conditions. A variety tertiary, secondary, primary bromides undergo to generate )−C(sp 2 moderate excellent yields. These redox‐neutral reactions feature broad substrate scope (>60 examples), good functional‐group tolerance, facile generation quaternary centers. Mechanistic studies indicate that simple palladium complex acts photocatalyst radicals are involved process.

Язык: Английский

Процитировано

208

Three-Component, Interrupted Radical Heck/Allylic Substitution Cascade Involving Unactivated Alkyl Bromides DOI
Huan‐Ming Huang, Peter Bellotti,

Philipp M. Pflüger

и другие.

Journal of the American Chemical Society, Год журнала: 2020, Номер 142(22), С. 10173 - 10183

Опубликована: Май 7, 2020

Developing efficient and selective strategies to approach complex architectures containing (multi)stereogenic centers has been a long-standing synthetic challenge in both academia industry. Catalytic cascade reactions represent powerful means of rapidly leveraging molecular complexity from simple feedstocks. Unfortunately, carrying out Heck-type involving unactivated (tertiary) alkyl halides remains an unmet owing unavoidable β-hydride elimination. Herein, we show that modular, practical, general palladium-catalyzed, radical three-component coupling can indeed overcome the aforementioned limitations through interrupted Heck/allylic substitution sequence mediated by visible light. Selective 1,4-difunctionalization 1,3-dienes, such as butadiene, achieved employing different commercially available nitrogen-, oxygen-, sulfur-, or carbon-based nucleophiles bromides (>130 examples, mostly >95:5 E/Z, >20:1 rr). Sequential C(sp3)–C(sp3) C–X (N, O, S) bonds have constructed efficiently with broad scope high functional group tolerance. The flexibility versatility strategy illustrated gram-scale reaction streamlined syntheses ether, sulfone, tertiary amine products, some which would be difficult access via currently established methods.

Язык: Английский

Процитировано

192

Visible Light-Induced Excited-State Transition-Metal Catalysis DOI
Rajesh Kancherla, Krishnamoorthy Muralirajan, Arunachalam Sagadevan

и другие.

Trends in Chemistry, Год журнала: 2019, Номер 1(5), С. 510 - 523

Опубликована: Июнь 1, 2019

Язык: Английский

Процитировано

191