Thermodynamics of micellisation of a diblock copolymer of ethylene oxide and styrene oxide in water

Kelarakis, Antonis, Havredaki, Vasiliki, Rekatas, Christopher J. and Booth, Colin (2001) Thermodynamics of micellisation of a diblock copolymer of ethylene oxide and styrene oxide in water. Physical Chemistry Chemical Physics, 3 (24). pp. 5550-5552. ISSN 14639076

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Official URL: http://dx.doi.org/10.1039/B107374E

Abstract

Aqueous solutions of block copolymer S13E60 were studied by surface tensiometry. [E denotes an oxyethylene unit, OCH2CH2, and S an oxyphenylethylene unit, OCH2CH(C6H5).] Critical micelle concentrations were determined at several temperatures and thereby values of the standard enthalpy of micellisation, ΔmicH°. It was found that the copolymer underwent almost athermal micellisation. This unusual behaviour in block copolymer systems is attributed to the hydrophobic block being tightly coiled in the molecular state, so that interaction of its units with water (hydrophobic bonding) is minimised, with the resulting small positive contribution to ΔmicH° being essentially balanced by a negative contribution from dispersion interactions of B units in the micelle core.


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