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ABSTRACT
Here we report on the synthesis and mesomorphic properties of a series of imino-linked dimeric molecules. In order to improve our understanding of the structure–NTB phase correlations, we have studied the impact of geometric and electronic factors arising from varying mesogenic units, different spacer lengths and from the ratio (n/m) between the lengths of terminal chains (n) and spacer (m). From the perspective of the molecular geometry, the results show that the stability of the NTB phase results from increasing effective molecular bending and with the broadening of the mesogenic unit, in particular near the spacer, and that the n/m ratio plays a substantial role in conjunction with the specific mesogenic unit. A computational study of the electronic properties shows that a broadening of the mesogenic core in the vicinity of the spacer is associated with an increased anisotropy of the electrostatic potential distribution. Within a given series of materials our study suggests that the incidence of the NTB phase and its thermal stability are governed by the synergy of specific geometrical factors and the anisotropy of the electrostatic potential distribution of the mesogenic core.
GRAPHICAL ABSTRACT
Acknowledgements
We are grateful to Dr. Nađa Došlić (Theoretical Chemistry Group, Ruđer Bošković Institute, Zagreb) for helpful discussions and suggestions concerning the electronic structure calculations and Dr. Irina Pucić (Radiation Chemistry and Dosimetry Laboratory, Ruđer Bošković Institute, Zagreb) for allowing us to use their DSC equipment.
Disclosure statement
No potential conflict of interest was reported by the authors.
Supplemental data
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