Abstract
Liquid crystal trimers and tetramers containing two kinds of flexible spacers, namely O(CH2) m O and COO(CH2) n O, were divided into four classes according to the odd/even nature of the number of atoms in the flexible spacers: specifically, even–even, odd–odd, even–odd, and odd–even trimers, and even–even–even, odd–odd–odd, odd–even–odd, and even–odd–even tetramers. The transition properties of the four types of trimers and of tetramers were compared. Although the nematic–isotropic transition temperature and the associated entropy changes were primarily related to the number of the even-membered flexible spacers in these molecules, the different combinations of the flexible spacers significantly affected their transition properties.
Acknowledgements
The author thanks Jun-ichi Inadome and Hisashi Tamura for the preparation of trimers (1) and tetramers (2).