Abstract
Stereoregular cyclolinear organosiloxane copolymers containing vinyl groups with diorganosiloxane spacers as well as cyclohexasiloxane fragments were synthesised. Comb-shaped liquid crystalline (LC) cyclolinear polymethylsiloxanes with mesogenic side groups were prepared by hydrosilylation of stereoregular cyclolinear organosiloxane copolymers with (4′-cyanobiphenyl-4-yl)-11-(1,1,3,3-tetramethyldisiloxyl)undecanoate in the presence of the Karstedt catalyst. The chemical structure of the copolymers synthesised was confirmed by proton and silicon nuclear magnetic resonance spectroscopies and infrared spectroscopy. Their phase behaviour was characterised by differential scanning calorimetry, X-ray analysis and optical polarising microscopy. It was shown that the appearance of the LC state, the temperature range of its existence and polymesomorphism are determined by the molecular mass of the copolymer and by the content of the mesogenic groups. The introduction of three mesogenic groups per monomer unit results in polymesomorphic transitions. The tacticity of the backbone influences the interchain distances in the comb-shaped LC cyclolinear methylsiloxane copolymers. Studying the Langmuir films of the stereoregular LC methylsiloxane copolymers revealed that different types of molecular arrangements could be observed depending on the number of mesogenic groups attached. LC copolymers having three mesogens per monomer unit demonstrate a two-stage monolayer collapse.
Acknowledgements
This work was supported by the Russian Foundation for Basic Research (Project No. 09-03-01140), the Program of the Praesidium of the Russian Academy of Sciences ‘The Development of Methodology of Organic Synthesis and Creation of Compounds with Valuable Applied Properties’ and by the State Contract No. 14.740.11.0905. The authors express their gratitude to Dr V.V. Volkov and K.A. Dembo for SAXS measurements of several samples and to Dr A.V. Kaznacheev for valuable discussions.
Notes
† DIFFRACplus Evaluation: EVA 14 User Manual, Bruker AXS GmbH, Karlsruhe, Germany, 2008.