Dearomatizing Amination Reactions

Abstract: Dearomatization reactions allow the direct synthesis of structurally complex sp 3 -rich molecules from readily available "flat" precursors. Established dearomatization processes commonly involve the formation of new CÀ C bonds, whereas methods that enable the introduction of CÀ N bonds have received less attention. Because of the privileged position of nitrogen in drug discovery, significant recent methodological efforts have been directed towards addressing this deficiency. Consequently, a variety of new proc… Show more

“…Some features of the formal (3+2) cycloaddition between DAAA + II and arenes distinguish it from previously reported aminative cycloadditions of arenes or heteroarenes. 31 Though azaoxallyl and diazaoxallyl cations undergo (3+2) or (4+3) cycloadditions with less aromatic heteroarenes such as furans or indoles, 29,30 no such reactions with monocyclic aromatic hydrocarbons have been reported. The cycloaddition of DAAA + II is also distinct from the photocycloadditions of TADs, which favor a (4+2) mode as excitedstate arenophiles, whereas formal (3+2) adducts were exclusively observed with II.…”

Skeletal Transformation of Unactivated Arenes Enabled by a Low-Temperature Dearomative (3+2) Cycloaddition

“…Some features of the formal (3+2) cycloaddition between DAAA + II and arenes distinguish it from previously reported aminative cycloadditions of arenes or heteroarenes. 31 Though azaoxallyl and diazaoxallyl cations undergo (3+2) or (4+3) cycloadditions with less aromatic heteroarenes such as furans or indoles, 29,30 no such reactions with monocyclic aromatic hydrocarbons have been reported. The cycloaddition of DAAA + II is also distinct from the photocycloadditions of TADs, which favor a (4+2) mode as excitedstate arenophiles, whereas formal (3+2) adducts were exclusively observed with II.…”

Skeletal Transformation of Unactivated Arenes Enabled by a Low-Temperature Dearomative (3+2) Cycloaddition

“…Then, the other two commonly used hypervalent iodine-(III) oxidants, PIDA and PIFA were tested. PIDA was found to be less effective than PIFA (entries [14][15][16][17][18][19][20][21][22][23]. While the use of fluoroprotic solvents as TFE or HFIP was crucial to achieve high conversion of 1 a, the addition of PivOH or BF 3 •Et 2 O [21] failed to improve the yield of 2 a (entries 24 and 25).…”

A Metal‐Free C−H Amination‐Based Strategy for N‐Amino Indole Synthesis

“…1,2 In order to create diverse sp 3 -rich scaffolds for the synthesis of lead-like molecules 3 and fragments, 4 we were interested in developing a method that would allow the concise synthesis of highly functionalised 1,2diaminocyclohexanes, motifs that are embedded in a wide range of natural and non-natural bioactive skeleta. The formation of nitrogen-containing spirocycles by dearomatisation reactions 5 may be triggered by reaction of phenol with external oxidants 6 or electrophilic reagents…”

“…The formation of nitrogen-containing spirocycles by dearomatisation reactions 5 may be triggered by reaction of phenol with external oxidants 6 or electrophilic reagents 7 followed by attack by a pendant nitrogen nucleophile, or alternatively by direct intramolecular attack of the arene on an electrophilic nitrogen species. 8 We envisioned that by performing an oxidative cyclisation using a urea as the nucleophile, we might be able to effect a subsequent aza-Michael addition on the resulting spirocyclic dienone derivative, leading to formation of a spirotricyclic derivative containing an embedded 1,2-diamine in a single operation (Fig.…”

Synthesis of spirocyclic 1,2-diamines by dearomatising intramolecular diamination of phenols