Journal ArticleDOI
Thermodynamic Free Energy Behavior of Diblock Copolymer Chains Confined Between Planar Surfaces Having End-Tethered Flexible Polymer Molecules
TLDR
In this article, a molecular model for the free energy of a confined system of diblock copolymer chains within a 2D slit with the interior surfaces having end-tethered chains is presented, based on a combined lattice and scaling theory approach.Abstract:
A molecular model for the free energy of a confined system of diblock copolymer chains within a 2D slit with the interior surfaces having end-tethered chains is presented, based on a combined lattice and scaling theory approach. The thermodynamics of a model system, based on a constrained minimization of free energy, is explored as a function of the intermolecular energy parameters for interaction between the segments of block copolymer chains, end-tethered chains, and the surfaces. The effects of chain length and the block length ratio are investigated over a wide range of values. The results obtained are qualitative in nature; however, the model can be implemented to real systems provided appropriate parameterization of the model parameters to real systems can be performed. The phase diagrams obtained here provide ways for designing thermodynamically stable systems within the physical parametric variable space.read more
Citations
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Molecular Dynamics Study of the Intercalation of Diblock Copolymers into Layered Silicates
TL;DR: In this paper, a simulation of the flow of a symmetric diblock copolymer from a bulk melt into a slit whose surfaces are modified by grafted surfactant chains, and whose walls are maintained at a constant pressure to permit the slit to open as polymer intercalates, is presented.
References
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Journal ArticleDOI
Polyacrylamides Bearing Pendant α-Sialoside Groups Strongly Inhibit Agglutination of Erythrocytes by Influenza Virus: The Strong Inhibition Reflects Enhanced Binding through Cooperative Polyvalent Interactions
TL;DR: An ELISA assay is described for measuring the binding of influenza virus A-X31 to α-sialoside groups that are linked to biotin-labeled polyacrylamides, and the role of steric stabilization in the mechanism is shown to be directly related to the binding affinity of the polymers for the viral surface.
Journal ArticleDOI
Modeling the Interactions between Polymers and Clay Surfaces through Self-Consistent Field Theory
TL;DR: Using numerical self-consistent field (SCF) calculations, Wang et al. as mentioned in this paper investigated the interactions between two closely spaced surfaces and the surrounding polymer melt, and developed an analytical SCF theory to model the interactions among the functionalized chains, nonfunctionalized polymers and the clay sheets.
Journal ArticleDOI
Observed Surface Energy Effects in Confined Diblock Copolymers
G. J. Kellogg,D. G. Walton,Anne M. Mayes,P. Lambooy,Thomas P. Russell,P. D. Gallagher,Sushil K. Satija +6 more
TL;DR: In this paper, thin layers of random copolymer were used to simulate block-wall interactions for films of diblock copolymers confined between parallel walls, where one block component segregates to both interfaces, and the frustration due to incommensuration between film thickness and the bulk period is accommodated by the formation of layers parallel to the walls with perturbed period.