Phase diagram for diblock copolymer melts under cylindrical confinement

Cheng J. Y.; Drolet F.; Fredrickson G. H.; Geisinger T.; He X.; Helfand E.; Hong K. M.; Huinink H. P.; Matsen M. W.; Matsen M. W.; Morkved T. L.; Park C.; Park M.; Press W. H.; Rasmussen K.; Segalman R. A.; Sevink G. J. A.; Shin K.; Sun Y.; Tzeremes G.; We; Wickham R. A.; Wu Y.; Xiang H.; Xiang H.

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Phase diagram for diblock copolymer melts under cylindrical confinement

Authors: Cheng J. Y.
Drolet F.
Fredrickson G. H.
Geisinger T.
He X.
Helfand E.
Hong K. M.
Huinink H. P.
Matsen M. W.
Matsen M. W.
Morkved T. L.
Park C.
Park M.
Press W. H.
Rasmussen K.
Segalman R. A.
Sevink G. J. A.
Shin K.
Sun Y.
Tzeremes G.
We
Wickham R. A.
Wu Y.
Xiang H.
Xiang H.
Publication date: 1 August 2005
Publisher: 'American Chemical Society (ACS)'
Doi

Abstract

We extensively study the phase diagram of a diblock copolymer melt confined in a cylindrical nanopore using real-space self-consistent mean-field theory. We discover a rich variety of new two-dimensional equilibrium structures that have no analog in the unconfined system. These include non-hexagonally coordinated cylinder phases and structures intermediate between lamellae and cylinders. We map the stability regions and phase boundaries for all the structures we find. As the pore radius is decreased, the pore accommodates fewer cylindrical domains and structural transitions occur as cylinders are eliminated. Our results are consistent with experiments, but we also predict phases yet to be observed.Comment: 12 pages, 3 figures. submitted to Physical Review Letter

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