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End-Pulled Translocation of a Star Polymer Out of a Confining Cylindrical Cavity

机译:终端拉动圆柱形腔的星形聚合物的易位

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摘要

A Langevin dynamics computer simulation is carried out to study the translocation of a single homogeneous star polymer out of a cylindrical cavity connected to a membrane wall with a circular nanopore along the tube axis. The ejection process is driven through an external pulling force applied on the free end monomer of the chain leading arm. The results show that, for a given chain mass and for relatively narrow pores, the mean translocation time tau exhibits a non-monotonic dependence on the chain functionality f with the existence of a minimum at a critical functionality that defines a boundary between two distinct translocation regimes. Moreover, for a given functionality, the variations of the mean translocation time with respect to the chain mass and the magnitude of the pulling force respectively, are both found to follow a power law relationship. Finally, it has been demonstrated that the translocation dynamics can be significantly altered by changing the confining tube dimensions, with the existence of an optimal tube aspect ratio that minimizes the chain mean translocation time tau.
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