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J. G. E. M. Fraaije, B. A. C. van Vlimmeren, N. M. Maurits, M. Postma, O. A. Evers, C. Hoffmann, P. Altevogt, and G. Goldbeck-Wood, “The Dynamic Mean-field Density Functional Method and its Application to the Mesoscopic Dynamics of Quenched Block Copolymer Melts,” Journal of Chemical Physics, Vol. 106, No.10, 1997, pp. 4260-4269. doi:10.1063/1.473129

has been cited by the following article:

• TITLE: Phase Behavior of Sphere-Forming Triblock Copolymers in Films

  AUTHORS: Hong-Ge Tan, Qing-Gong Song, Xin-Huan Yang, Ya-Jing Deng

  KEYWORDS: Triblock Copolymer; Mean-Field Dynamic Density Functional Theory; Thin Film

  JOURNAL NAME: Open Journal of Applied Sciences, Vol.2 No.3, September 28, 2012

  ABSTRACT: The self-assembly of sphere-forming triblock copolymers confined between two thin homogeneous surfaces is investigated based on mean-field dynamic density functional theory. The morphologies deviating from the bulk sphere-forming phase are revealed, including cylinders oriented perpendicular to the surface, cylinders oriented parallel to the surface, perforated lamellae and lamellae by varying film thickness and surface field strength. The phase diagram of surface reconstruction is also constructed. By comparing the present phase diagram with the other relevant phase diagram for the cylinder-forming triblock copolymer film, the difference between the sphere-forming and the cylinder-forming triblock copolymer thin film is discussed.