Abstract
BACKGROUND: Generally main chain cholesteric thermotropic liquid crystalline polymers are prepared form chiral diacid or diol monomer. But these monomers are costly. Isosorbide is chiral cycloaliphatic diol accessible from renewable resources in the form of pure enantiomers. Thus it is used to synthesize main chain cholesteric thermotropic liquid crystalline polymers. Incorporation of phenyl hydroquinone into the backbone of the main chain frustrates chain packing, thus lowering the crystallinity and depressing the melting point below the degradation temperature, also improves the solubility due to disruption of packing and maintains the mechanical and thermal performance. RESULTS: Optical microscopy study reveals that more than 50% of isosorbide content with phenyl hydroquinone and terephthalic acid showed “yellow iridescent oily streaks” with a background of mosaic/marble texture. These are the typical textures of cholesteric liquid crystalline phase. Copolyesters based on phenyl hydroquinone, isosorbide and terephthalic acid are soluble in aprotic solvents like N,N-dimethylacetamide (DMAC), dimethyl sulfoxide (DMSO), N,N-dimethylformamide (DMF), and N-methyl-2-pyrrolidone (NMP). Solubility increases with the content of isosorbide percent. Thermal stability of all copolyesters was more than 300?C on the basis of 10% wt loss. CONCLUSIONS: It was found that main chain cholesteric thermotropic liquid crystalline polymers can be prepared form chiral cycloaliphatic diol such as isosorbide. Main chain cholesteric thermotropic liquid crystalline polyesters are prepared from phenyl hydroquinone, isosorbide and terephthalic acid showed thermal stability more than 300?C. Main chain cholesteric thermotropic liquid crystalline polymers are soluble in aprotic solvents like DMAC, DMSO, DMF and NMP.
Highlights
Cholesteric liquid crystalline polymers (ChLCPs) have ability to produce supermolecular structures characterized by a helical organization with certain identity period
Optical microscopy study reveals that more than 50% of isosorbide content with phenyl hydroquinone and terephthalic acid showed “yellow iridescent oily streaks” with a background of mosaic/marble texture
These are the typical textures of cholesteric liquid crystalline phase
Summary
The pitch of the helix changes with respect to temperature as well as the action of electrical and magnetic fields offers substantial advantages for practical applications of such ChLCPs are as thermometers and thermoindicators for techniques and medicine. The most advantageous procedure for the development of cholesteric mesophase is copolymerization of mesogenic and chiral monomers This approach offers a convenient means for the preparation of the cholesteric copolymers and allows one to control phase and optical properties of cholesteric polymer by varying their composition [7,8,9]. According to structure property relationship study terephthalic acid is highly rigid diacid based monomer and it enhances performance of polymers due to para-para orientation. Hydroquinone is highly rigid diol based monomer and it improves performance of polymers due to para-para orientation. Prime aim of the study was to synthesize high performance main chain cholesteric thermotropic liquid crystalline polyesters using an isosorbide as chiral cycloaliphatic diol. In our earlier communication isosorbide based main chain cholesteric thermotropic liquid crystalline polyesters were reported [5]. The influence of the concentration of the chiral monomer on cholesteric thermotropic liquid crystalline phase behavior of the polyesters is discussed
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