典型文献
Translocation of a Self-propelled Polymer through a Narrow Pore
文献摘要:
Recent studies indicate that active polymers often show curious conformational and dynamical properties.Specially,rigid polymers with self-propelled tangential forces can move directionally and even push a cargo.Motivated by this,the translocation of an active bead-spring polymer through a narrow pore is studied simulationly in this work.Each bead of the polymer is propelled by a tangential active force(fa)along the contour of the polymer.Simulation results show that the active polymer translocates through the pore in a railway-motion manner.The translocation velocity v of the polymer is determined only by fa,resulting that the translocation time(τ)as a function of the polymer length(N)and the active force fa can be expressed as τ oc Nf-1a,which is independent of the rigidity of the polymer.Our results indicate that the translocation dynamics of active polymers is quite different from that of passive polymers.
文献关键词:
中图分类号:
作者姓名:
Chao Wang;Han-Xian Hu;Yan-Li Zhou;Bin Zhao;Meng-Bo Luo
作者机构:
Department of Physics,Taizhou University,Taizhou 318000,China;Department of Physics,Zhejiang University,Hangzhou 310027,China
文献出处:
引用格式:
[1]Chao Wang;Han-Xian Hu;Yan-Li Zhou;Bin Zhao;Meng-Bo Luo-.Translocation of a Self-propelled Polymer through a Narrow Pore)[J].高分子科学(英文版),2022(12):1670-1678
A类:
simulationly
B类:
Translocation,Self,propelled,Polymer,through,Narrow,Pore,Recent,studies,indicate,that,active,polymers,often,show,curious,conformational,dynamical,properties,Specially,self,tangential,forces,can,move,directionally,even,push,cargo,Motivated,by,this,translocation,bead,spring,narrow,pore,studied,work,Each,fa,along,contour,Simulation,results,translocates,railway,motion,manner,velocity,determined,resulting,function,length,expressed,Nf,1a,which,independent,rigidity,Our,dynamics,quite,different,from,passive
AB值:
0.523619
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