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Liquid Crystals Volume 34, 2007 - Issue 8
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Original Articles

Ferroelectric liquid crystal dopants with a chiral (R,R)‐2,3‐difluorooctyloxy side‐chain: host dependence of the polarization power

Matthew P. Thompson Chemistry Department, Queen’s University, Kingston, Ontario, K7L 3N6, Canada
,
Torsten Hegmann* Chemistry Department, Queen’s University, Kingston, Ontario, K7L 3N6, Canada
,
Michael D. Wand Displaytech Inc, 2602 Clover Basin Drive, Longmont, CO 80503
&
Robert P. Lemieux Chemistry Department, Queen’s University, Kingston, Ontario, K7L 3N6, CanadaCorrespondence[email protected]
Pages 987-994 | Received 17 May 2007, Accepted 05 Jun 2007, Published online: 11 Sep 2007
 
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Abstract

The polarization powers δp of four chiral dopants with (R,R)‐2,3‐difluorooctyloxy side‐chains were measured in four liquid crystal hosts with isotropic (I)–nematic (N)–smectic A (SmA)–smectic C (SmC) phase sequences. The four chiral dopants differ in terms of their core structures: 2‐phenylpyridine (MDW950), biphenyl (5), 2‐phenylpyrimidine (6) and 2‐(3‐nitrophenyl)pyrimidine (7). In each case, δp varies with the structure of the liquid crystal host, which is consistent with the behaviour of so‐called Type II dopants that normally feature a chiral core structure. The δp(host) profile was found to depend on the degree of biaxiality of the dopant core structure, and on the degree of steric coupling between the chiral 2,3‐difluorooctyloxy side‐chain and the core. Conformational analyses at the B3LYP/6‐31G* level suggest that the 2,3‐difluorooctyloxy side‐chain is conformationally more rigid than conventional chiral side‐chains due to the added electrostatic repulsion of the two adjacent fluoro groups combined with the hyperconjugative ‘gauche effect’, and may therefore have a higher degree of biaxiality on the time average. This biaxial character should make the chiral side‐chain more sensitive to variations in quadrupolar ordering imposed by the SmC phase of the liquid crystal host, and may therefore explain the dependence of δp on the host structure reported herein.

* Present address: Department of Chemistry, University of Manitoba: Winnipeg, Manitoba, R3T 2N2, Canada.

Acknowledgments

We are grateful to the Natural Sciences and Engineering Research Council of Canada and the Canada Foundation for Innovation for support of this work. T.H. gratefully acknowledges the DAAD (German Academic Exchange Service) for a postdoctoral fellowship (Postdoc/NATO program, Grant D/01/28537).

Notes

* Present address: Department of Chemistry, University of Manitoba: Winnipeg, Manitoba, R3T 2N2, Canada.

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