Dissipative Particle Dynamics Simulation on the Nanocomposite Delivery System of Quantum Dots and Poly(styrene-b-ethylene oxide) Copolymer

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• 作者：Pihui Pi ; Dongxia Qin ; Jia-ling Lan ; Zhiqi Cai ; Xianxia Yuan ; Shou-ping Xu ; Lijuan Zhang ; Yu Qian ; Xiufang Wen
• 刊名：Industrial & Engineering Chemistry Research
• 出版年：2015
• 出版时间：June 17, 2015
• 年：2015
• 卷：54
• 期：23
• 页码：6123-6134
• 全文大小：926K
• ISSN：1520-5045

文摘

Dissipative particle dynamics (DPD) simulation was used to investigate the self-assembling dynamics process of poly(styrene-b-ethylene oxide) (PS-b-PEO) block copolymer and quantum dots (QDs) in an aqueous solution. The effects of molecular weight (MW) and segment construction of a PS鈥揚EO block copolymer on the structure and size of the self-assembled micelles were discussed. The structural properties of micelles were characterized by a radial distribution function. The simulation results are qualitatively consistent with those of previous experiments and show that there are only small QD clusters. The hydrophobic PS chains form the micelle core, while the hydrophilic PEO chains form the shell. The size of the self-assembled PS鈥揚EO/QDs micelle increases with the MW of PS-b-PEO block copolymer and the lengths of PEO and PS segments. The simulation results indicate that the assembling process includes four sequential transient stages: (1) the random distribution of all components in aqueous solution; (2) formation of small clusters with polymer chains and QDs; (3) crashing together of small spheres and the formation of larger aggregates; (4) stabilization of assembled micelles. The simulation reveals the physical insights of the QD loading mechanism of the PEG micelle at the mesoscopic scale, indicating the DPD simulation can be used as an adjunct to provide other valuable information for experiments.