Compression and stretching of a self-avoiding chain in cylindrical nanopores

Abstract

Force-induced deformations of a self-avoiding chain confined inside a cylindrical cavity, with diameter D, are probed using molecular dynamics simulations, scaling analysis, and analytical calculations. We obtain and confirm a simple scaling relation -f · D R-9/4 in the strong-compression regime, while for weak deformations we find f · D = -A(R/R0) + B (R/R0)-2, where A and B are constants, f the external force, and R the chain extension (with R0 its unperturbed value). For a strong stretch, we present a universal, analytical force-extension relation. Our results can be used to analyze the behavior of biomolecules in confinement.