| Abstract: | 5 alpha-Cholestan-3 beta-ol esters of aliphatic acids undergo both enantiotropic and monotropic changes of state. Ten saturated and three unsaturated esters have been examined by differential scanning calorimetry and polarizing microscopy to determine transition temperatures, enthalpies, and entropies. The results are compared with an analogous series of cholesterol esters. All esters of even-numbered n-alkanoic acids from C2 to C20 melt from a crystalline state to an isotropic liquid. The crystalline state has been studied by X-ray powder diffraction. The C8 to C20 esters have progressively increasing crystalline melting transition temperatures from 76 to 99 degrees C and possess similar X-ray powder diffraction patterns, suggesting that these compounds form an isostructural series. Esters of C2, C4, and C6 acids exhibit polymorphism. Crystalline cholestanol oleate melts to an isotropic liquid, whereas cholestanol linoleate and linolenate fail to crystallize, even after several months at -20 degrees C. Esters of the even-numbered saturated acids from C4 to C14 form monotropic cholesteric liquid crystalline phases. Esters C10, C12, and C14 form smectic liquid crystalline phases. Cholestanol oleate, linoleate, and linolenate form both cholesteric and smectic mesophases. The lower smectic to cholesteric and cholesteric to isotropic transition temperatures of the cholestanol esters compared to the corresponding transition temperatures of the analogous cholesterol esters suggest that the delta 5 double bond in cholesterol increases the thermal stability of the mesophases of cholesterol esters. |
