Iron‐Catalyzed Three‐Component Cyanoalkylsulfonylation of 2,3‐Allenoic Acids, Sulfur Dioxide, and Cycloketone Oxime Esters: Access to Cyanoalkylsulfonylated Butenolides

Abstract: An iron‐catalyzed three‐component cyanoalkylsulfonylation of 2,3‐allenoic acids, K2S2O5, and the ring‐opening of cyclobutanone oxime esters is described. The radical tandem cyclization route allows access to diverse cyanoalkylsulfonylated butenolides in moderate to good yields under mild conditions. Moreover, the products are further converted, offering the corresponding derivatives.

“…On the basis of the above experimental results and related literature reports, Scheme 6 gave a possible reaction mechanism [18] . Initially, ArCF 2 CO 2 H (ArSCF 2 CO 2 H, ArOCF 2 CO 2 H) 2 (4/6) was affected by persulfate, releasing a molecule of carbon dioxide, and persulfate itself disproportionated into sulfate and sulfate ions.…”

“…On the basis of the above experimental results and related literature reports, Scheme 6 gave a possible reaction mechanism. [18] Initially, ArCF…”

Metal‐free Cascade Radical Cyclization of N‐Methylacrylyl‐2‐phenylbenzimidazole: Construction of Aryldifluoromethylated Benzimidazole[2,1‐a]iso‐Quinoline‐6(5H)‐ketone

“…On the basis of the above experimental results and related literature reports, Scheme 6 gave a possible reaction mechanism [18] . Initially, ArCF 2 CO 2 H (ArSCF 2 CO 2 H, ArOCF 2 CO 2 H) 2 (4/6) was affected by persulfate, releasing a molecule of carbon dioxide, and persulfate itself disproportionated into sulfate and sulfate ions.…”

“…On the basis of the above experimental results and related literature reports, Scheme 6 gave a possible reaction mechanism. [18] Initially, ArCF…”

Metal‐free Cascade Radical Cyclization of N‐Methylacrylyl‐2‐phenylbenzimidazole: Construction of Aryldifluoromethylated Benzimidazole[2,1‐a]iso‐Quinoline‐6(5H)‐ketone

“…[16] Over the past decades, three-component methodology utilizing handled convenient sulfur dioxide surrogate [17] for the installation of a sulfonyl group has received increasing attention. [18] Based on our previous work on radical cyclization, [19] herein we report visible-light-induced photocatalyst-free three-component difluoroamidosulfonylation of terminal alkynes and N-allylbromodifluoroacetamides with the insertion of sulfur dioxide.…”

Photoinduced Three‐Component Difluoroamidosulfonylation/Bicyclization: Regioselectivity Synthesis of Seven‐Membered Dibenzosultams

“…In recent years, by utilizing the sulfur dioxide insertion strategy, tremendous progress in the synthesis of sulfonyl compounds has been witnessed . So far, sulfur dioxide surrogates such as DABCO·(SO 2 ) 2 , potassium or sodium metabisulfite, rongalite, and thiourea dioxide have been widely utilized for various transformations to prepare sulfones. − In particular, we and others have found that the radical-triggered insertion of sulfur dioxide represents an effective strategy for installing sulfonyl group into organic molecules. Among these approaches, the radical-involved vicinal difunctionalization of alkenes or alkynes through sulfur dioxide insertion has been demonstrated as a convenient method for generating alkyl or vinyl sulfones (Scheme a, top).…”

“…Initially, we postulated that iminyl radical species A and Cu­(II) species would be generated through the interaction of cycloketone oxime ester 3a and the Cu­(I) species via a single-electron transfer (SET) process . Then, iminyl radical A would undergo a ring-opening process through β-C–C bond cleavage to produce cyanoalkyl radical B , which would be rapidly captured by sulfur dioxide from DABCO·(SO 2 ) 2 to provide the corresponding cyanoalkylsulfonyl radical C . − The radical addition of intermediate C to 1,3-enyne 1a would afford propargyl radical D and its resonance form as allenyl radical species E . In this context, the chemoselective radical attack of the cyanoalkylsulfonyl moiety toward the alkene group instead the alkyne moiety might be attributed to the lower steric hindrance of the terminal alkene group.…”

Copper-Catalyzed Regioselective 1,4-Selenosulfonylation of 1,3-Enynes to Access Cyanoalkylsulfonylated Allenes