Abstract
The phase behavior and temperature-dependent molecular motions of three cholesteryl ethers (caproyl, myristyl, oleyl) and a cholesteryl carbonate (oleyl) were characterized. The properties of each ether were qualitatively similar to, but quantitatively different from, those of the corresponding cholesteryl ester. For example, cholesteryl oleyl ether exhibited the same phase transitions as cholesteryl oleate, but at much lower temperatures (e.g., the ether isotropic liquid to cholesteric transition is at 29 degrees C). 13C NMR spectra of ethers in the isotropic liquid and liquid crystalline phases were similar to those of the ester analogue. However, near the liquid to liquid crystalline transition, the steroid ring C3 and C6 linewidths, the C3/C6 linewidth ratio, and the steroid ring rotational correlation times tau rx and tau rz calculated from the linewidths were larger for the ether than the ester analogue. The oleyl carbonate had qualitatively different properties from its analogues (e.g., stable vs. metastable cholesteric and smectic phases). Quantitative results (e.g., relatively long tau rx and tau rz in the isotropic liquid phase) for the carbonate were also distinct from those of both the ester and ether analogues. A comparison of analogues in which the polar linkage is the only structural variable yielded insights into the intermolecular interactions which influence phase behavior.
Highlights
The phase behavior and temperature-dependent molecular motions of three cholesteryl ethers and a cholesteryl carbonate were characterized
We report on 13C NMR studies of liquid and liquid crystalline phases of three cholesteryl ethers [oleyl (18:1), myristyl (14:O)and caproyl
Since even trace amounts of impurities affect the phase behavior of thermotropic compounds, the tetradecanyl ether was synthesized by an alternate method in which the cholesterol anion was heated directly with the mesylate of the fatty alcohol, without the use of DMF
Summary
Cholesteryl cis-9,lO-octadecenylcarbonate (cholesteryl oleyl carbonate) was purchased from Eastman Kodak Co. (Rochester, NY) and was used without further purification. The cholesterol anion was generated by heating cholesterol with sodium hydride in mineral oil in anhydrous toluene [14].This reaction mixture was heated with the mesylate of the desired fatty alcohol in the presence of anhydrous dimethylformamide This method yielded pure hexyl and oleyl ethers by the criteria of TLC, high performance liquid chroma-. Since even trace amounts of impurities affect the phase behavior of thermotropic compounds, the tetradecanyl ether was synthesized by an alternate method in which the cholesterol anion was heated directly with the mesylate of the fatty alcohol, without the use of DMF.
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