Thermal conductivity of bottle-brush polymers

Abstract

Using molecular dynamics (MD) simulations of a generic model, we investigate heat propagation in bottle--brush polymers (BBP). An architecture is referred to as a BBP when a linear (backbone) polymer is grafted with the side chains of different length N s and grafting density g, which control the bending stiffness of a backbone. A BBP is of particular interest due to two competing mechanics: increased backbone stiffness, via N s and g, increases the thermal transport coefficient , while the presence of side chains provides additional pathways for heat leakage. We show how a delicate competition between these two effects controls . These results reveal that going from a weakly grafting ( g < 1) to a highly grafting ( g 1) regime, changes non--monotonically that is independent of N s. The effect of side chain mass on and heat flow in the BBP melts are also discussed.

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