Additive‐Free Visible‐Light‐Initiated Three‐Component Cyanation and Azidation

Wang, Zhiwei; Hao, Jindong; Lv, Yufen; Qu, Chengming; Yue, Huilan; Wei, Wei

doi:10.1002/ajoc.202200484

Cited by 3 publications

(5 citation statements)

References 95 publications

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“…103 Moreover, the same group demonstrated the utilization of TMSN 3 , TMSCN, pyrazolones, and dicarbonyl compounds as nucleophiles in three-component cascade reactions involving diazo compounds and cyclic ethers (Scheme 37i,j). 104,105 More recently, An and Wang's groups employed the in situ formed Osubstituted hydroxamic acids 37.38 toward various N-alkylated acrylamides 37.39 (Scheme 37k). 106 The photochemical cascade ring-opening reaction of oxonium ylides can be synergistically combined with NHC catalysis, thus further expanding the range of suitable substrates for this transformation.…”

Section: Si−h Insertionsmentioning

confidence: 99%

“…Later, Wei’s group reported an analogous approach employing O 2 from the air for the synthesis of various phosphonates 37.32 and phosphinates (Scheme h) . Moreover, the same group demonstrated the utilization of TMSN 3 , TMSCN, pyrazolones, and dicarbonyl compounds as nucleophiles in three-component cascade reactions involving diazo compounds and cyclic ethers (Scheme i,j). , More recently, An and Wang’s groups employed the in situ formed O -substituted hydroxamic acids 37.38 toward various N -alkylated acrylamides 37.39 (Scheme k) …”

Section: Diazo Compounds As Singlet Carbene Precursorsmentioning

confidence: 99%

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Visible Light-Induced Reactions of Diazo Compounds and Their Precursors

Zhang,

Gevorgyan

2024

Chem. Rev.

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In recent years, visible light-induced reactions of diazo compounds have attracted increasing attention in organic synthesis, leading to improvement of existing reactions, as well as to the discovery of unprecedented transformations. Thus, photochemical or photocatalytic generation of both carbenes and radicals provide milder tools toward these key intermediates for many valuable transformations. However, the vast majority of the transformations represent new reactivity modes of diazo compounds, which are achieved by the photochemical decomposition of diazo compounds and photoredox catalysis. In particular, the use of a redox-active photocatalysts opens the avenue to a plethora of radical reactions. The application of these methods to diazo compounds led to discovery of transformations inaccessible by the classical reactivity associated with carbenes and metal carbenes. In most cases, diazo compounds act as radical sources but can also serve as radical acceptors. Importantly, the described processes operate under mild, practical conditions. This Review describes this subfield of diazo compound chemistry, particularly focusing on recent advancements.

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Section: Si−h Insertionsmentioning

confidence: 99%

Section: Diazo Compounds As Singlet Carbene Precursorsmentioning

confidence: 99%

Visible Light-Induced Reactions of Diazo Compounds and Their Precursors

Zhang,

Gevorgyan

2024

Chem. Rev.

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“…74 Several multicomponent reactions involving the use of cyclic ethers as solvent and a variety of nucleophiles have been reported to afford the corresponding more complex formal O-H insertion products, which are also presumably derived from the involvement of a key oxygen ylide intermediate. 61,62,64,[75][76][77][78][79][80][81][82][83][84] C-C insertion reactions could be achieved with 1,3-diketones 85,86 (with a rare successful example of enantioselective catalysis being demonstrated by Hui and co-authors employing a chiral phosphoric acid catalyst 86 ), and enaminones. 87 Condensation-type products have been also obtained starting from azides to afford imines, 34 and starting from isonitriles to afford ketenimine derivatives.…”

Section: A-diazo Estersmentioning

confidence: 99%

Visible light-mediated photolysis of organic molecules: the case study of diazo compounds

Gallo,

Cariello,

Goulart

et al. 2023

Chem. Commun.

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“…When THF or cyclic ethers 128 were employed as the solvent, the latter actively participated in the reaction becoming one of the coupling partners. In this context, the groups of Jiang, Qi, Wei, Yue, Zhong, He and Xu extensively worked in this field, managing to develop different catalystand additive-free methodologies for the synthesis of carbamates 129, [98] phosphorothiates 131, [99] thiocyanates 133, [100] nitriles 138 and azides 139 [101] under blue light irradiation. Adjusting the reaction conditions according to the coupling partners, the α-aryldiazoesters 127 and THF were reacted with carbon dioxide and an amine 88, [98] elemental sulfur and Hphosphonates 120, [99] and TMSCN 137/TMSN 3 136, [101] respectively.…”

Section: Acyclic Derivativesmentioning

confidence: 99%

“…In this context, the groups of Jiang, Qi, Wei, Yue, Zhong, He and Xu extensively worked in this field, managing to develop different catalystand additive-free methodologies for the synthesis of carbamates 129, [98] phosphorothiates 131, [99] thiocyanates 133, [100] nitriles 138 and azides 139 [101] under blue light irradiation. Adjusting the reaction conditions according to the coupling partners, the α-aryldiazoesters 127 and THF were reacted with carbon dioxide and an amine 88, [98] elemental sulfur and Hphosphonates 120, [99] and TMSCN 137/TMSN 3 136, [101] respectively. Only in 2023, the reaction was extended to NaSCN 132 [100] and to organic phosphinic acids 134, the latter methodology was employed to produce phosphoric esters 135.…”

Section: Acyclic Derivativesmentioning

confidence: 99%

Light‐Induced Domino and Multicomponent Reactions: How to Reach Molecular Complexity without a Catalyst

Renzi,

Scarfiello,

Lanfranco

et al. 2023

Eur J Org Chem

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Achieving high molecular complexity can be not trivial, but the exploitation of domino reactions provides an atom‐ and step‐economical method to reach this target. Over the past decades, a lot of efforts have been put on the development of photocatalytic cascades employing both metal‐based and purely organic catalysts. Despite the effectiveness of these protocols, catalyst‐ and additive‐free light‐induced domino reactions are gaining momentum thank to their efficiency, operational simplicity and sustainability. The increasing number of papers published on this field in the last years is a proof of the appeal of these transformations. In this Review, we discuss domino and multicomponent reactions mediated by light with a focus on photocatalyst‐ and additive‐free processes. The most recent advances in the synthesis of complex nitrogen‐, oxygen‐, sulphur/selenium‐heterocycles together with multicomponent cascades are analysed with an emphasis on both experimental and mechanistic studies.

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Additive‐Free Visible‐Light‐Initiated Three‐Component Cyanation and Azidation

Cited by 3 publications

References 95 publications

Visible Light-Induced Reactions of Diazo Compounds and Their Precursors

Visible Light-Induced Reactions of Diazo Compounds and Their Precursors

Visible light-mediated photolysis of organic molecules: the case study of diazo compounds

Light‐Induced Domino and Multicomponent Reactions: How to Reach Molecular Complexity without a Catalyst

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