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Monte Carlo simulation of phase separations of block copolymers and of corresponding blends

โœ Scribed by Yuliang Yang; Jianming Lu; Dong Yan; Jiandong Ding

Publisher
John Wiley and Sons
Year
1994
Tongue
English
Weight
638 KB
Volume
3
Category
Article
ISSN
1022-1344

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โœฆ Synopsis

Abstract

The Monte Carlo method has been used to simulate the phase separations of block copolymers and of corresponding blends with very high concentration (sum of volume fractions of blocks A and B: ฯ•~A~ + ฯ•~B~ = 0,9545). Our main findings are as follows: (1) The mixing is nonrandom even in the athermal limit. (2) The nonselective good solvent molecules (ฯ•~V~ = 0,0455) are mostly located at the interface between Aโ€ and Bโ€rich phases, thus, it is not true that solvent and monomeric units will remain mixed at all temperatures. (3) Even for the same microscopic Aโ€B interaction energy, ฮต, and at the same temperature, the Floryโ€Huggins parameter ฯ‡ of block copolymers is always higher than that of corresponding blends, and the ฯ‡ values of block copolymers and corresponding blends have different ฮตโ€dependencies. (4) The critical values of ฯ‡ both for block copolymer and corresponding blend are obtained and compared with the meanfield theoretical predictions. It is found that the ratio of ฯ‡~c~ (block)/ฯ‡~c~ (blend) is qualitatively compatible with the prediction of the Floryโ€Leibler theory.

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