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Yongbing Song Run Jiang Zheng Wang Lang Wang Yuhua Yin Baohui Li An‐Chang Shi 《Macromolecular theory and simulations》2016,25(6):559-570
The self‐assembled morphologies of cyclic amphiphiles, which are composed of a long hydrophobic block and a short hydrophilic block, in selective solutions are studied by using a simulated annealing method. The morphological dependence of the aggregates on solvent quality is investigated. The topology effects are studied by comparing results from linear counterparts of the amphiphiles. It is observed that, in addition to spherical micelles, cylindrical micelles, disklike micelles, vesicles, and large compound micelles, muticompartment vesicles with several fluidic cores can be formed by the cyclic systems. The morphologies are regulated by the interaction parameter εAS between the hydrophobic block and solvents. Furthermore, it is revealed that the differences of characteristics of the self‐assembled aggregates originate from the difference in architectural constraint. The wide region of forming multicompartment vesicles suggests that cyclic amphiphilic macromolecules could be a suitable candidate for applications to deliver multiple functional components by compartmentalizing different components in different confined space of vesicles. 相似文献
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Dr. Yuanchen Dong Prof. Dr. Dongsheng Liu 《Chemistry (Weinheim an der Bergstrasse, Germany)》2015,21(50):18018-18023
Frame‐guided assembly, a recently discovered strategy for amphiphilic assembly, is discussed as a strategy for constructing vesicle assemblies with programmed geometries and dimensions under identical surrounding conditions. The strategy is inspired by the cytoskeletal‐membrane protein–lipid bilayer structure and shows great potential in the understanding and controlling of the amphiphilic assembly process. Both the principles and basic requirements are discussed, along with recently reported examples. The prospects and potential investigations of frame‐guided assembly are also proposed. 相似文献
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In order to improve the stability of polymeric vesicles, supramolecular vesicles are developed via self‐assembly of the inclusion of γ‐cyclodextrin (γ‐CD) and 1‐pyrenemethyl palmitate (Py‐pal). The inclusion has one hydrophilic head and double hydrophobic tails, which looks like the phospholipid. From the transmission electron microscopy (TEM) image, it can be observed that the average diameter of supramolecular vesicles is approximately 55 nm and there is a huge cavity in supramolecular vesicles. Due to the photo‐breakable ester of Py‐pal, supramolecular vesicles are broken under UV irradiation. Supramolecular vesicles are used as UV‐responsive drug carriers to release the hydrophilic drug such as doxorubicin hydrochloride (DOX•HCl).
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Dr. Jibin Song Dr. Binghui Wu Dr. Zijian Zhou Dr. Guizhi Zhu Dr. Yijing Liu Zhen Yang Dr. Lisen Lin Dr. Guocan Yu Dr. Fuwu Zhang Dr. Guofeng Zhang Dr. Hongwei Duan Dr. Galen D. Stucky Dr. Xiaoyuan Chen 《Angewandte Chemie (International ed. in English)》2017,56(28):8110-8114
Janus nanoparticles (JNPs) offer unique features, including the precisely controlled distribution of compositions, surface charges, dipole moments, modular and combined functionalities, which enable excellent applications that are unavailable to their symmetrical counterparts. Assemblies of NPs exhibit coupled optical, electronic and magnetic properties that are different from single NPs. Herein, we report a new class of double-layered plasmonic–magnetic vesicle assembled from Janus amphiphilic Au-Fe3O4 NPs grafted with polymer brushes of different hydrophilicity on Au and Fe3O4 surfaces separately. Like liposomes, the vesicle shell is composed of two layers of Au-Fe3O4 NPs in opposite direction, and the orientation of Au or Fe3O4 in the shell can be well controlled by exploiting the amphiphilic property of the two types of polymers. 相似文献
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