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Liquid Crystals Volume 43, 2016 - Issue 10
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Original Articles

Extended conjugated mesogens: synthesis and mesomorphic properties of H-shaped mesogens based on 3,3ʹ,5,5ʹ-tetrasubstituted 2,2ʹ-bithiophene with oligo(1,4-phenyleneethynylene) arms

Tetsuo YatabeNational Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, JapanCorrespondence[email protected]
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Yuji KawanishiNational Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, JapanView further author information
Pages 1375-1389 | Received 07 Dec 2015, Accepted 04 Apr 2016, Published online: 28 Apr 2016
 
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ABSTRACT

A new class of extended conjugated mesogens, namely H-shaped mesogens based on 3,3ʹ,5,5ʹ-tetrasubstituted 2,2ʹ-bithiophene with oligo(1,4-phenyleneethynylene) arms, have been synthesised, and the relationships between molecular structures and mesomorphic properties investigated. Tetraalkyl, tetraalkoxy and dialkyldialkoxy derivatives, [R1C6H4CCC6H2(C2H5)2CC]2[R2C6H4CCC6H2(C2H5)2CC]2C8H2S2 where R1 and R2 = alkyl and alkoxy chains of different lengths, exhibit nematic phases. The length, number and position of the terminal chains strongly affect the mesomorphic properties. The tetraalkyl derivatives in which R1 = R2 = pentyl to heptyl exhibit enantiotropic mesophases, whereas the derivatives with octyl or nonyl chains exhibit monotropic mesophases. The tetraalkoxy derivatives in which R1 = R2 = pentyloxy to nonyloxy all exhibit enantiotropic nematic phases. The mesophase range increases with increasing alkoxy chain length, except that the octyloxy and nonyloxy derivatives have almost the same temperature range. The dialkyldialkoxy derivatives in which R1 = alkyl; R2 = alkoxy and in which R1 = alkoxy; R2 = alkyl (R1 and R2 = heptyl, nonyl, hexyloxy or nonyloxy) exhibit enantiotropic mesophases. The derivatives in which R1 = alkoxy have a significantly lower crystal–nematic transition temperature than the corresponding derivatives (R2 = alkoxy), although the two types of derivatives have a similar nematic–isotropic transition temperature.

Graphical Abstract

Acknowledgements

We thank Dr Ritsuko Nagahata and Ms Yuko Saito for carrying out the MALDI–TOF–MS measurements, Ms Shizuko Shibasaki for providing the EA data and Ms Hiroko Kobashi for maintaining the NMR spectrometer.

Disclosure statement

No potential conflict of interest was reported by the authors.

Supplementary material

Supplemental data for this article can be accessed here.

Additional information

Funding

This work was supported by AIST.

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