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Miscibility between differently shaped mesogens: Structural and morphological study of a phthalocyanine-perylene binary system.

Authors :
UCL - FSA/ELEC - Département d'électricité
Zucchi, Gaël
Viville, Pascal
Donnio, Bertrand
Vlad, Alexandru
Melinte, Sorin
Mondeshki, Mihail
Graf, Robert
Spiess, Hans Wolfgang
Geerts, Yves H
Lazzaroni, Roberto
UCL - FSA/ELEC - Département d'électricité
Zucchi, Gaël
Viville, Pascal
Donnio, Bertrand
Vlad, Alexandru
Melinte, Sorin
Mondeshki, Mihail
Graf, Robert
Spiess, Hans Wolfgang
Geerts, Yves H
Lazzaroni, Roberto
Source :
The Journal of Physical Chemistry. Part B, Vol. 113, no. 16, p. 5448-5457 (2009)
Publication Year :
2009

Abstract

The thermotropic, structural, and morphological properties of blends of a disk-like liquid crystalline phthalocyanine derivative and a lath-shaped perylenetetracarboxidiimide mesogen derivative have been studied by combining differential scanning calorimetry, thermal polarized optical microscopy, X-ray diffraction, solid-state nuclear magnetic resonance, and atomic force microscopy. The two compounds are fully miscible for blends containing at least 60 mol % of the disk-like molecule. In such composition range, the homogeneous blends form a columnar hexagonal (Col(h)) mesophase for which the thermal stability is enhanced compared to that of the corresponding mesophase of the pure phthalocyanine. The miscible blends self-align homeotropically between two glass slides. For blends containing between 55 and 40 mol % of the disk-shaped molecule, the two components are fully miscible at high temperature but the perylene derivative forms a separate crystalline phase when the temperature is decreased. Phase separation is systematically observed in blends containing less than 40 mol % of the discotic molecule. In this case, the resulting Col(h) mesophase is less stabilized compared to the blends containing a larger amount of the phthalocyanine derivative. These phase-separated blends do not show any homeotropic alignment. AFM investigations confirm the formation of a single columnar morphology in the phthalocyanine-rich blends, consistent with the full miscibility between the two compounds. Solid-state NMR measurements on the mixed phase show the influence of the presence of the perylene molecules on the molecular dynamics of the molecules; remarkably, the presence of the host molecules improves the local order parameter in the phthalocyanine columnar phase.

Details

Database :
OAIster
Journal :
The Journal of Physical Chemistry. Part B, Vol. 113, no. 16, p. 5448-5457 (2009)
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1130578628
Document Type :
Electronic Resource