Dilution wave and negative-order crystallization kinetics of chain molecules

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2000

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Physical Review Letters

Abstract

We show that the crystal growth rate of a very long-chain n-alkane C198H398 from solution can decrease with increasing supersaturation and follow strongly negative order kinetics. The experimental behavior can be well represented by a theoretical model which allows the molecule to attach and detach as either extended or folded in two. The obstruction of extended-chain growth by unstable folded depositions increases disproportionately with increasing concentration. As a consequence of this abnormal kinetics, a “dilution wave” can propagate and trigger a folded-to-extended-chain transformation on its way.

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Ungar, G., Mandal, P.K., Higgs, P.G., de Silva, D.S.M., Boda, E. and Chen, C.M. 2000. Dilution wave and negative-order crystallization kinetics of chain molecules. Physical Review Letters 85, 4397-4400.

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