物理化学学报2018,Vol.34Issue(10):1144-1150,7.DOI:10.3866/PKU.WHXB201802122
聚合物接枝Janus纳米片形变的耗散粒子动力学研究
Deformation of Polymer-Grafted Janus Nanosheet: A Dissipative Particle Dynamic Simulations Study
摘要
Abstract
Because of broad potential applications in sensing,drug delivery,and molecular motors,two-dimensional (2D),flexible,responsive Janus materials have attracted considerable interest recently in many fields.Unfortunately,the molecular-level responsive deformation of these 2D Janus nanomaterials is still not clearly understood.Hence,investigating the influence factor and responsiveness of the deformation of the 2D flexibleresponsive Janus nanomaterials should be helpful to deepen our understanding of the deformation mechanism and may provide valuable information in the design and synthesis of novel functional 2D Janus nanomaterials.Therefore,a mesoscopic simulation method,dissipative particle dynamics simulation,based on coarse-grained models,is employed in this work to systematically investigate the effect of the chain length difference between grafted polymers within two compartments of each individual Janus nanosheet and the effect of solvent selectivity difference of these two compartments on the deformation of the polymer-grafted Janus nanosheet.Although the coarse-grained model within this simulation is relatively crude,it is still valid to provide a qualitative image of the deformation of the polymer-grafted Janus nanosheet.Furthermore,we find two basic principles:(1) with increasing length difference between grafted polymers on the two opposite surfaces,the nanosheet will bear an entropy-driven deformation with increasing curvature;(2) the solvent will preferentially wet the polymer layer with better compatibility,and such a swelling effect may also provide a driving force for the deformation process.Owing to the interplay of conformational entropy and mixing enthalpy,the equilibrium structures of the polymer-grafted Janus nanosheet result in several interesting structures,such as a tube-like structure with a hydrophobic outer surface,an envelope-like structure,and a bowl-like structure,with tuning of the chain length and solvent compatibility of grafted polymers.Additionally,an unusually tube-like structure with a hydrophobic outer surface has been observed for a relatively weak solvent selectivity,which may provide us a novel method to transfer materials into the incompatible environment and therefore has potential applications in many areas,such as controllable drug delivery and release,and industrial and medical detection.Our theoretical results first provide a fundamental insight into the controllable deformation of the flexible Janus nanosheet,which can then help in the design and synthesis of novel Janus nanodevices for potential applications in pharmaceuticals and biomedicine.Bearing the limited of the computational capabilities,our model Janus nanosheets are relatively small,which are not direct mappings from real system.We hope that a systematic simulation study on this topic would be possible soon with the rapid developments in computer technology and simulation methods,and this would provide an exhaustive and universal methodology to guide experimental studies and applications.关键词
Janus纳米材料/聚合物/两亲性复合材料/形态调控/耗散粒子动力学模拟Key words
Janus nanomaterial/Polymer/Amphiphilic composites/Morphology control/Dissipative particle dynamics simulation分类
化学化工引用本文复制引用
陆腾,周永祥,郭洪霞..聚合物接枝Janus纳米片形变的耗散粒子动力学研究[J].物理化学学报,2018,34(10):1144-1150,7.基金项目
The project was supported by the National Nature Science Foundation of China (21174154,21204094,50930002,20874110,20674093) and National Basic Research Program of China (973) (2014CB643601).国家自然科学基金(21174154,21204094,50930002,20874110,20674093)和国家重点基础研究发展计划(973) (2014CB643601)资助项目 (21174154,21204094,50930002,20874110,20674093)
