Three tetracyclic dibenzoazepine derivatives exhibiting different molecular conformations, different patterns of intermolecular hydrogen bonding and different modes of supramolecular aggregation

The biological potential of compounds of the tricyclic dibenzo[ b , e ]azepine system has resulted in considerable synthetic efforts to develop efficient methods for the synthesis of new derivatives of this kind. (9 RS ,15 RS )‐9‐Ethyl‐11‐methyl‐9,13b‐dihydrodibenzo[ c , f ]thiazolo[3,2‐ a ]azepin‐3(2 H )‐one, C 19 H 19 NOS, (I), crystallizes as a kryptoracemate with Z ′ = 2 in the space group P 2 1 , with one molecule each of the (9 R ,15 R ) and (9 S ,15 S ) configurations in the asymmetric unit, while (9 RS ,15 RS )‐9‐ethyl‐7,12‐dimethyl‐9,13b‐dihydrodibenzo[ c , f ]thiazolo[3,2‐ a ]azepin‐3(2 H )‐one, C 20 H 21 NOS, (II), crystallizes with Z ′ = 1 in the space group C 2/ c . Ethyl (13 RS )‐2‐chloro‐13‐ethyl‐4‐oxo‐8,13‐dihydro‐4 H ‐benzo[5,6]azepino[3,2,1‐ ij ]quinoline‐5‐carboxylate, C 22 H 20 ClNO 3 , (III), exhibits enantiomeric disorder in the space group P such that the reference site is occupied by the 13 R and 13 S enantiomers, with occupancies of 0.900 (6) and 0.100 (6). In each of the two independent molecules in (I), the five‐membered ring adopts an envelope conformation, but the corresponding ring in (II) adopts a half‐chair conformation, while the six‐membered ring in the major form of (III) adopts a twist‐boat conformation. The conformation of the seven‐membered ring in each of (I), (II) and the major form of (III) approximates to the twist‐boat form. The molecules of compound (I) are linked by two C—H…O hydrogen bonds to form two independent antiparallel C (5) chains, with each type containing only one enantiomer. These chains are linked into sheets by two C—H…π(arene) hydrogen bonds, in which the two donors are both provided by the (9 R ,15 R ) enantiomer and the two acceptor arene rings form part of a molecule of (9 S ,15 S ) configuration, precluding any additional crystallographic symmetry. The molecules of compound (II) are linked by inversion‐related C—H…π(arene) hydrogen bonds to form isolated cyclic centrosymmetric dimers. The molecules of compound (III) are linked into cyclic centrosymmetric dimers by C—H…O hydrogen bonds and these dimers are linked into chains by a π–π stacking interaction. Comparisons are made with some related structures.