5N-Acylation of 1N-methyl-1,5-benzodiazepin-2-ones with (S)-2-phenylpropanoyl and (S)-2-phenylbutanoyl chlorides afforded the (a1S,a2S,S)-atropisomer (I) diastereoselectively over the (a1R,a2R,S)-isomer (II) in the ratio of 1:0.06-0.15. The preferential formation of I may be explained by the thermodynamically preferable π-π stacking interaction between two benzene rings in the benzodiazepine ring and the acyl chloride during the reaction. Analysis using ab initio calculations (RI-MP2/6-31+G(d) level of theory) for the acylation reaction indicated the π-π stacking interaction in the transition state. Furthermore, isomer I was shown to be thermodynamically more stable than II. The higher stability of I may be caused by the folded form of the two benzene rings, which was revealed by NMR, X-ray, and computational analyses.