Direct enantioseparation of axially chiral 1,1'-biaryl-2,2'-diols using amidine-based resolving agents

Amidine-based optically active resolving agents for enantiomer separation of axially chiral 1,1'-biaryl-2,2'-diols have been developed. A strongly basic amidine bearing no substituents on its nitrogen atoms enables the formation of their diastereomeric salts upon being mixed with weakly acidic phenol derivatives. Enantiopure 1,1'-biaryl-2,2'-diols can be obtained in high yields after only one crystallization of their salts with the chiral amidine derived from dehydroabietic acid. X-ray crystallography revealed that the amidine moiety forms a salt with the phenol group and additional intermolecular NH/π interactions contribute to the efficient chiral recognition process.

Tandem crystallization strategies for resolution of 3,3,3-trifluorolactic acid [CF3 CH(OH)COOH] by chiral benzylamines

Resolution of rac-3,3,3-trifluorolactic acid by diastereomeric salt formation was reinvestigated. The use of (S)-1-phenylethylamine gives coprecipitation of two diastereomeric phases, 1 (S)-[NH₃ CH(CH₃ )Ph](S)-[CF₃ CH(OH)COO] and 2 (S)-[NH₃ CH(CH₃ )Ph](R)-[CF₃ CH(OH)COO]·H₂ O. Pure phase 1 may be obtained using molecular sieves as desiccants. Resolution by (S,S)-2-amino-1-phenylpropan-1,3-diol gives monoclinic (S,S)-[NH₃ CH(CH₂ OH)CHOHPh] (R)-[CF₃ CH(OH)-COO] 3 with minor (S)-3,3,3-trifluorolactate contamination, which is precluded in the recrystallized orthorhombic form 4. A new resolution using inexpensive phenylglycinol gives pure phase 5 (S)-[NH₃ CH(CH₂ OH)Ph] (S)-[CF₃ CH(OH)COO] in 76% yield, 94% ee in a single step, in preference to its (S)-(R) diastereomer 6. Overall efficient resolution for both enantiomers of the trifluorolactic acid (each ca. 70% yield, 99% ee) may be achieved by various two-step "tandem" crystallizations, involving direct addition of either water or a second base to the filtrate from the initial reaction.