利用特定的静电相互作用从非组装均聚物制备可编程纳米组装体。
Programmable Nanoassemblies from Non-Assembling Homopolymers Using Ad Hoc Electrostatic Interactions.
机构信息
Department of Chemistry, University of Massachusetts Amherst, Amherst, MA, 01003, USA.
Department of Innovative Technologies, University of Applied Sciences and Arts of Southern Switzerland, Galleria 2, Via Cantonale 2C, Manno, 6928, Switzerland.
出版信息
Angew Chem Int Ed Engl. 2017 Apr 3;56(15):4145-4149. doi: 10.1002/anie.201611688. Epub 2017 Mar 13.
Abstract
Robust nanostructures were obtained from polymers that otherwise do not assemble by using a novel approach based on electrostatic self-assembly. The essence of this strategy involves the use of divalent counterions to temporarily perturb the packing features of the ionic groups in a homopolymer, which results in a vesicle-like structure that is captured in situ through a simple crosslinking reaction. The fidelity of the assembly has been tested for molecular transport across the nanomembrane, both for the molecules encapsulated in the lumen and for those trapped in the membrane itself. The membranes are addressable for robust multifunctionalization of their surfaces and for tunable transmembrane molecular transport.
摘要
通过一种基于静电自组装的新方法,从原本不会自组装的聚合物中获得了坚固的纳米结构。这种策略的本质是使用二价抗衡离子暂时改变均聚物中离子基团的堆积特征,从而导致形成类似囊泡的结构,通过简单的交联反应将其原位捕获。纳米膜的分子传输的组装保真度已经过测试,包括内腔中封装的分子和被困在膜本身中的分子。这些膜可用于其表面的稳健多功能化和可调谐的跨膜分子传输。
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