Crystalline structures and mesomorphic properties of gemini diammonium surfactants with a pendant hydroxyl group

The hydroxyl group of the spacer enhances the hydrogen bonding interaction between neighboring compounds, and therefore the packing of C 12–3(OH)–C 12 is arranged to form a herringbone-like mode. [Display omitted] ► The packing arrangement of C n –3(OH)–C n shows a herringbone-like structure as a re...

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Bibliographic Details
Published in:Journal of colloid and interface science 2011-02, Vol.354 (2), p.677-685
Main Authors: Wei, Zengbin, Wei, Xilian, Sun, Dezhi, Liu, Jiuqiang, Tang, Xiaojuan
Format: Article
Language:English
Subjects:
Chemistry
Crystal structure
crystals
differential scanning calorimetry
Diffraction
Exact sciences and technology
Gemini surfactant
General and physical chemistry
hydrogen bonding
Hydroxyl groups
melting point
Melting points
Mesophase
microscopy
Rheological properties
Rheological property
Spacers
Surfactants
temperature
Thermotropic mesophase
viscosity
X-ray diffraction
X-rays
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Summary:The hydroxyl group of the spacer enhances the hydrogen bonding interaction between neighboring compounds, and therefore the packing of C 12–3(OH)–C 12 is arranged to form a herringbone-like mode. [Display omitted] ► The packing arrangement of C n –3(OH)–C n shows a herringbone-like structure as a result of the presence of a pendant hydroxyl group. ► These compounds of C n –3(OH)–C n have relatively low melting points, as compared to those without a hydroxyl substituted at the spacer. ► The melting point and rheological parameters increase, conforming to the length of alkyl chains. A series of homologous crystals of gemini diammonium surfactants (GDAS) containing one hydroxyl substituted methylene spacer are prepared. The crystal structures of these compounds, namely [C n H 2 n +1–N + (CH 3) 2–CH 2CH(OH)CH 2–N +(CH 3) 2–C n H 2 n +1], are determined by single-crystal X-ray diffraction techniques, in order to have a better understanding of the structure relation between the solid and the mesophase. The hydroxyl groups enhance the hydrogen bonding interaction between neighboring compounds, and therefore the packing of GDAS in the solid state is arranged to form a herringbone-like mode. To the best of our knowledge, this is the first GDAS crystal with a herringbone-like structure. Their mesomorphic properties are investigated by differential scanning calorimetry, polarizing optical microscopy, X-ray powder diffraction, and rheological measurement. These compounds have relatively low melting points and form thermotropic mesophases over a broad temperature range, as compared to those without a hydroxyl substituted at the spacer. The rheological behavior of the smectic phases clearly reveals that hydrogen bonds exert a significant effect on the high values of moduli and viscosity. Moreover, the melting point and rheological parameters increase, conforming to the length of alkyl chains.
ISSN:0021-9797
1095-7103
DOI:10.1016/j.jcis.2010.11.009