Comparison of D,L-Mandelic Acid Resolution on Zeolite and Silica Supported Pirkle-Type Chiral Stationary Phases

Abstract

Zeolite A, a material of crystalline character, and Hypersil silica have been used as support for the preparation of chiral stationary phases. On the amorphous silica support surface the silanol groups are randomly dispersed. The crystalline zeolite secondary building units consisting primarily of SiO4, AlO4− tetrahedra determine the regularity of surface silanol groups. Owing to the crystal lattice structure, the location of silanols is well determined and hence the dispersion of chiral selector molecules chemically bonded onto the zeolite surface silanol groups is fundamentally arranged. Amides of DNB-L-Leu, DNB-L-Phe, B-L-Leu chiral selector molecules were anchored onto the zeolite silanols and B-L-Leu onto the silica support silanols. Lipophilic buffer in RP conditions has dynamically modified the residual silanols of each support. The enantioseparation of ion paired D,L-mandelic acid from aqueous solution on the zeolite and silica supported chiral stationary phases prove a superior enantioseparation on the zeolite supported phases.