Spinodal decomposition in a model colloid-polymer mixture in microgravity

Bailey, A. E.; Poon, W. C. K.; Christianson, R. J.; Schofield, A. B.; Gasser, U.; Prasad, V.; Manley, Suliana; Segre, P. N.; Cipelletti, L.; Meyer, W. V.; Doherty, M. P.; Sankaran, S.; Jankovsky, A. L.; Shiley, W. L.; Bowen, J. P.; Eggers, J. C.; Kurta, C.; Lorik, T.; Pusey, P. N.; Weitz, D. A.

doi:10.1103/PhysRevLett.99.205701

2007

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Abstract

We study phase separation in a deeply quenched colloid-polymer mixture in microgravity on the International Space Station using small-angle light scattering and direct imaging. We observe a clear crossover from early-stage spinodal decomposition to late-stage, interfacial-tension-driven coarsening. Data acquired over 5 orders of magnitude in time show more than 3 orders of magnitude increase in domain size, following nearly the same evolution as that in binary liquid mixtures. The late-stage growth approaches the expected linear growth rate quite slowly. © 2007 The American Physical Society.

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Title Spinodal decomposition in a model colloid-polymer mixture in microgravity

Author(s) Bailey, A. E. ; Poon, W. C. K. ; Christianson, R. J. ; Schofield, A. B. ; Gasser, U. ; Prasad, V. ; Manley, Suliana ; Segre, P. N. ; Cipelletti, L. ; Meyer, W. V. ; Doherty, M. P. ; Sankaran, S. ; Jankovsky, A. L. ; Shiley, W. L. ; Bowen, J. P. ; Eggers, J. C. ; Kurta, C. ; Lorik, T. ; Pusey, P. N. ; Weitz, D. A.

Published in Physical Review Letters

Volume 99

Issue 20

Pages 205701

Date 2007

ISSN 0031-9007

DOI https://doi.org/10.1103/PhysRevLett.99.205701

Laboratories LEB

Record Appears in Scientific production and competences > SB - School of Basic Sciences > IPHYS - Institute of Physics > LEB - Laboratory of Experimental Biophysics
Peer-reviewed publications
Work outside EPFL
Journal Articles
Published

Record creation date 2012-11-26