Induced and spontaneous deracemization in bent-core liquid crystal phases and in other phases doped with bent-core molecules

Earl, D.J.; Osipov, M.A.; Takezoe, H.; Takanishi, Y.; Wilson, M.R.

Induced and spontaneous deracemization in bent-core liquid crystal phases and in other phases doped with bent-core molecules

Earl, D.J.; Osipov, M.A.; Takezoe, H.; Takanishi, Y.; Wilson, M.R.

Authors

D.J. Earl

M.A. Osipov

H. Takezoe

Y. Takanishi

Professor Mark Wilson mark.wilson@durham.ac.uk
Professor

Abstract

Recently discovered chiral properties of several bent-core smectic liquid crystal phases are summarized and discussed in detail under the assumption that typical bent-core molecules may exist in chiral conformational states and are achiral only on average. Results of atomistic computer simulations are presented which indicate the existence of strongly chiral conformational states for typical bent-core mesogens. A theory is developed which describes a possible shift of equilibrium between left- and right-handed conformations in a macroscopically chiral phase. The theory describes a chirality induction in the B2 bent-core phase and a reduction of the helical pitch in cholesteric and chiral SmC* phases doped with bent-core molecules. Finally, the possibility of spontaneous deracemization in bent-core smectic phases is discussed in detail.

Citation

Earl, D., Osipov, M., Takezoe, H., Takanishi, Y., & Wilson, M. (2005). Induced and spontaneous deracemization in bent-core liquid crystal phases and in other phases doped with bent-core molecules. Physical Review E, 71(2),

Journal Article Type	Article
Publication Date	2005-02
Journal	Physical Review E
Print ISSN	2470-0045
Publisher	American Physical Society
Peer Reviewed	Peer Reviewed
Volume	71
Issue	2