Reinhard Falkenstein scite author profile

The reaction of the title compound 1 with anthracene hydride AH‐ or anthracenide A‐' leads to the formation of the ben‐ zylic anion 9 by fragmentation of the first generated substi‐ tution intermediate 7 or 8. In the reactions with AH‐ the carb‐ anion 9 is completely trapped by protonation with dihydroan‐ thracene AH2 yielding the reduction product 3 (N‐benzoyl‐phenethylamine).phenethylamine). In reactions with A‐' as well as with naph‐ thalenide N‐' the carbanion 9 either abstracts a proton from the solvent THF (yielding 3) or adds to the benzoyl group of unreacted 1 which finally results in P‐benzamido‐ct‐phenyl‐ propiophenone (6).

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Neglected Aspects of Anthracenide (Anthracenidyl) Chemistry — Reactions with twoN-Benzoylaziridines

Lin

Weiss

Werry

et al. 2000

J. prakt. Chem.

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153Single electron transfer (SET) reactions of N-acylaziridines with radical anions and other electron sources were prompted by a mechanistic problem [2]. Usually aziridino ketyls arise and homolyze to amidatoalkyl radicals [2 -7]. The final result can depend on substituents of the aziridine ring, on the acyl group and on the radical anion. 2-Phenylaziridines present a special case [6 -7]. Reactions with N-pivaloylaziridines were reported both with naphthalenidyl N ·¯ (naphthalenide) and with A ·[ 3], reactions of N-aroylaziridines with N ·¯ only [5]. After a very short notice [2], reactions of 1a,b with A ·ā re now fully described with steps and types of products usually ignored or even unknown in A ·¯ chemistry and therefore of possible importance for reactions with alkylating agents RX [8] (cf. introduction in [3]) that give alkylation in position 9 (and 10) of A ·¯ besides reduction (→ RH) and multi-step dimerization (→ RR) (Scheme 1). Tables 1 and 2 Table 1 indicates that this nearly insoluble product may have been lost during work-up [5]. This does not disturb a discussion of the other products. Counter ion Na + has been replaced by Li + in runs 6 and 7 that are dealt with separately. Results and DiscussionThe product of two-fold SET (6a) was always the main product of Table 1 in contrast to the results from reactions of A ·¯ with RX [8] -pivaloylaziridines [3]. This is in accord with the electron source 2a for the conversion 3a → 4a since 2a has a longer lifetime than aliphatic aziridino ketyls and can better compete with A ·¯. This SET from 2a to 3a may further profit from the reported [5] reversible dimerization of 2a if one ketyl of the separating pair undergoes ring opening before it diffuses away. The yields of 6a (and also of 6b in Table 2) may be a bit low in long term runs since 5a,b and analogous precursors can eliminate [5] the Nsubstituent as olefine (ethene from 5a) when Na + is the counter ion.or with Nhigher contributions are possible with Li. Product 21s (probably 3,3'-disubstituted tetrahydrobianthryl) may arise by hydrogen detachment from the first intermediate (29) of coupling with position 2 and dimerization of the formed 2-substituted A ·¯ (30). Coupling products may be fully aromatized or may be hydroxylated in one of the benzylic positions. With counter ion Li + a non-SET reaction of 1a with the dimer of A ·¯ is indicated by the isolation of 9-benzoyl-dihydroanthracene 15 and by 19% yield of 16a (aromatized 10a). Reaction of 3b with anthracene is indicated by 10,10'-disubstituted tetrahydrobianthryl 37.

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Reinhard Falkenstein

Homolytic aziridine opening (aza variant of cyclopropylcarbinyl-homoallyl rearrangement) by addition of tributyltin radical to N-acylaziridines. Factors contributing to the regioselectivity

Reductive ring opening of N-benzoylaziridine by anthracene hydride (anion of 9,10-dihydroanthracene) via base-induced fragmentation of the intermediate carbonyl adduct

Single electron transfer versus nucleophilic ring opening in reactions of cis-trans pairs of activated 2-phenylaziridines. Strong influence of nitrogen pyramid for N-benzoylaziridines

Reactions with aziridines, 53. — Arene hydrides, 9. intermediate substitution in the formation of a benzylic anion by an aromatic radical anion as observed with 1‐benzoyl‐2‐phenylaziridine

Neglected Aspects of Anthracenide (Anthracenidyl) Chemistry — Reactions with twoN-Benzoylaziridines

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