Haoyun Wu scite author profile

We study the effect of an intrinsic curvature on the mechanical property of two-dimensional semiflexible biopolymers and find that it can induce a discontinuous transition in extension. At zero temperature, we accurately show that the extension of an intrinsically curved semiflexible biopolymer of finite length can undergo a multiple-step discontinuous transition regardless of bending rigidity. The transition is accompanied by unwinding loops, and the critical force reaches a limit quickly with decreasing number of loops so that, in the experiment, it is possible to observe the almost simultaneous opening of several loops. However, the fluctuation or configurational average at a finite temperature suppresses the sharp transition so that there is no discontinuous transition in a system of finite size. However, our results obtained from Monte Carlo simulation reveal that, at a finite temperature, the extension of a biopolymer can undergo a one-step first-order transition in the thermodynamical limit if the biopolymer has a sufficiently large bending rigidity. The critical force increases with increasing intrinsic curvature or bending rigidity.

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Experimental study of hollow fiber AGMD modules with energy recovery for high saline water desalination

Geng

et al. 2014

Desalination

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Haoyun Wu

Design and evaluation of baicalin-containing in situ pH-triggered gelling system for sustained ophthalmic drug delivery

Preparation and evaluation of solid lipid nanoparticles of baicalin for ocular drug delivery system in vitro and in vivo

Study on a new air-gap membrane distillation module for desalination

Curvature Induced Discontinuous Transition for Semiflexible Biopolymers

Experimental study of hollow fiber AGMD modules with energy recovery for high saline water desalination

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