Baode Zhang, Snežana D Zarić, Sonja S Zrilić, Iosif Gofman, Barbara Heck, Günter Reiter
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引用次数: 0
Abstract
The interplay between attractive London dispersion forces and steric effects due to repulsive forces resulting from the Pauli principle often determines the geometry and stability of nanostructures. Aromatic polyimides (PI) and carbon nanotubes (CNT) were chosen as building blocks as two components in the hetero delocalized electron nanostructures. Two PIs, having the same diamine part and different linkage substituents between two phenyl rings of dianhydride part, one linked with ether bond (C-O-C) (OPI), the other with C-(CF3)2 (FPI), were investigated. Surprisingly, two CNT/PI nanocomposites show distinct failure mode from CNT yielding to CNT pull-out failure. Calculation of the interaction energy and chain conformations of each PI upon CNT was performed by accurate density functional theory (DFT) calculations and molecular dynamic simulation (MDS). OPI chain adopt helically wrapping conformation around CNT with relatively strong interaction energy. FPI chain take the one-side wavelike conformation upon CNT with relatively weak interaction energy.
吸引的伦敦色散力和由泡利原理引起的排斥力引起的空间效应之间的相互作用往往决定了纳米结构的几何形状和稳定性。以芳香族聚酰亚胺(PI)和碳纳米管(CNT)为基本构件,构建了非定域电子纳米结构。研究了两种具有相同二胺部分和二酐部分两个苯环之间不同连接取代基的pi,一种与醚键(C- o -C) (OPI)连接,另一种与C-(CF3)2 (FPI)连接。令人惊讶的是,两种碳纳米管/PI纳米复合材料表现出不同的破坏模式,从碳纳米管屈服到碳纳米管拔出破坏。利用精确密度泛函理论(DFT)和分子动力学模拟(MDS)计算了碳纳米管上每个PI的相互作用能和链构象。OPI链在碳纳米管周围呈螺旋缠绕构象,具有较强的相互作用能。FPI链在碳纳米管上呈单侧波状构象,相互作用能相对较弱。
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