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Self-assembled pattern formation of block copolymers on the surface of the sphere using self-consistent field theory
Authors:J. F. Li  J. Fan  H. D. Zhang  F. Qiu  P. Tang  Y. L. Yang
Affiliation:(1) The Key Laboratory of Molecular Engineering of Polymers, Ministry of Education of China, 200433 Shanghai, PRC;(2) Department of Macromolecular Science, Fudan University, 200433 Shanghai, PRC
Abstract:The spherical surface is spatially discretized with triangular lattices to numerically calculate the Laplace-Beltrami operator contained in the self-consistent field theory (SCFT) equations using a finite volume method. Based on this method we have developed a spherical alternating-direction implicit (ADI) scheme for the first time to help extend real-space implementation of SCFT in 2D flat space to the surface of the sphere. By using this method, we simulate the equilibrium microphase separation morphology of block copolymers including AB diblocks, ABC linear triblocks and ABC star triblock copolymers occurred on the spherical surface. In general, two classes of microphase separation morphologies such as striped patterns for compositionally symmetric block copolymers and spotted patterns for asymmetric compositions have been found. In contrast to microphase separation morphology in 2D flat space, the geometrical characteristics of a sphere has a large influence on the self-assembled morphology. For striped patterns, several of spiral-form and ring-form patterns are found by changing the ratio of the radius of a sphere to the averaging width of the stripes. The specific pattern such as the striped and spotted pattern with intrinsic dislocations or defects stems from formed periodic patterns due to microphase separation of block copolymers arranged on the curved surface.
Keywords:83.80.Uv Block copolymers  36.20.-r Macromolecules and polymer molecules  68.08.De Structure: measurements and simulations
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