Developments in the Chemistry of α‐Carbonyl Alkyl Bromides

Ouyang, Xuan‐Hui; Song, Ren‐Jie; Li, Jin‐Heng

doi:10.1002/asia.201800630

Cited by 79 publications

(26 citation statements)

References 80 publications

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“…These results indicate that TEMPO plays a key role in the transformation. To compare these results with the effect of traditional oxidants, K 2 S 2 O 8 , Oxone and TBHP were employed in the reaction, but use of these oxidants resulted in much lower yields of the desired product (12%, 8%, and 54%, respectively; Table 1, Entries [16][17][18]. Air can be used as a green oxidant, [15] and so the reaction was conducted in the presence of CuBr 2 and air to provide the target product 3 in 36% yield ( The reaction scope was studied with these optimized conditions in hand.…”

Section: Resultsmentioning

confidence: 99%

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TEMPO‐Mediated Synthesis of N‐(Fluoroalkyl)imidazolones via Reaction of Imidazoles with Iodofluoroacetate

Ahmed

et al. 2019

Adv Synth Catal

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We report a TEMPO‐mediated oxidative copper‐catalyzed synthesis of N‐(fluoroalkyl)imidazolones via the radical addition of imidazoles with iodofluoroacetate. A possible key intermediate involving TEMPO was observed by ESI‐MS. We also found that aerobic oxidation conditions were effective for the transformation in the presence of a copper catalyst, enabling access to a number of N‐(fluoroalkyl)imidazolones in moderate to good yields.

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Section: Resultsmentioning

confidence: 99%

“…The resulting Cu (I) species could be reoxidized to Cu(II) via conversion of TEMPO to 2,2,6,6-tetramethylpiperidin-1-olate B. Under heating conditions, iodofluoroacetate 2 a may undergo mesolytic cleavage of the CÀ I bond to afford a radical C, [17] which then undergoes radical addition with 1 a and TEMPO to form intermediate 32. [18] Radical…”

Section: Resultsmentioning

confidence: 99%

TEMPO‐Mediated Synthesis of N‐(Fluoroalkyl)imidazolones via Reaction of Imidazoles with Iodofluoroacetate

Ahmed

et al. 2019

Adv Synth Catal

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“…Difunctionalization of unsaturated C-C bonds is a useful approach for the synthesis of complex functionalized aliphatic compounds in one step. [28] This difunctionalization system is similar to ATRA (atom-transfer radical addition) reactions catalyzed by a copper salt. For example, chloro-thiolation of alkyne 19.1 to give chlorothiolated alkene 19.3 is catalyzed by a copper catalyst in the presence of stoichiometric amounts of PPh 3 and sulfonyl chloride 19.2 (Scheme 19).…”

Section: Additionsmentioning

confidence: 98%

Hybrid Reaction Systems for the Synthesis of Alkylated Compounds Based upon Cu‐Catalyzed Coupling of Radicals and Organometallic Species

Takeuchi

Murata

Hirata

et al. 2019

The Chemical Record

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A transition metal catalyzed alkylation with an alkyl halide is one of the most difficult reactions to achieve, because of the difficult oxidative addition of an alkyl-halogen bond to a metal, and the strong tendency of the resulting alkylmetal intermediate to undergo a β-hydride elimination reaction to give an olefin. In this review, we discuss hybrid reaction systems involving Cu catalyzed combination of radical and organometallic species, which enable facile alkylation reactions to construct C-C and Cheteroatom bonds. This paper highlights recent arylation, alkenylation, alkynylation, cyclization, addition and introduction of heteroatoms via these hybrid reaction systems.

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“…Readily available α ‐carbonyl alkyl bromides have emerged as efficient substrates for providing alkyl radicals to initiate the transition metals‐catalyzed intermolecular 1,2‐difunctionalization with alkenes [46] …”

Section: Silver‐mediated Three‐component Alkene Functionalization Reamentioning

confidence: 99%

Recent Advances in Silver‐Mediated Radical Difunctionalization of Alkenes

Xiao

Yang

et al. 2020

ChemCatChem

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Radical‐initiated difunctionalization of alkenes is one of the most important methods in organic synthesis and medicinal chemistry, which can be applied to synthesize value complex compounds as well as structural motifs that found in bioactive natural products and pharmaceuticals. In recent years, impressive progress have been made in this area with ideal silver catalysis. Here, we summarize recent advances in silver‐mediated radical difunctionalization of alkenes for the formation of diverse bonds, including 1) two‐component radical difunctionalization reactions enabled by an intramolecular cyclization process toward various cyclic compounds and 2) three‐component radical difunctionalization reactions leading to complex linear compounds. These silver‐mediated radical alkene difunctionalization transformations are general initiated by different radicals, such as carbon‐, oxygen‐, sulfur‐, phosphinyl‐, and halogen‐center radicals, followed by terminated with nucleophiles to form two new bonds in a single reaction.

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Developments in the Chemistry of α‐Carbonyl Alkyl Bromides

Cited by 79 publications

References 80 publications

TEMPO‐Mediated Synthesis of N‐(Fluoroalkyl)imidazolones via Reaction of Imidazoles with Iodofluoroacetate

TEMPO‐Mediated Synthesis of N‐(Fluoroalkyl)imidazolones via Reaction of Imidazoles with Iodofluoroacetate

Hybrid Reaction Systems for the Synthesis of Alkylated Compounds Based upon Cu‐Catalyzed Coupling of Radicals and Organometallic Species

Recent Advances in Silver‐Mediated Radical Difunctionalization of Alkenes

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