自愈水凝胶
聚结(物理)
微流控
聚合
材料科学
纳米技术
化学工程
PEG比率
高分子化学
聚合物
复合材料
物理
天体生物学
财务
经济
工程类
作者
Song Guo,Yao Tong,Xiaobo Ji,Changfeng Zeng,Chongqing Wang,Lixiong Zhang
标识
DOI:10.1002/anie.201403256
摘要
The preparation of nonspherical materials composed of separated multicomponents by droplet-based microfluidics remains a challenge. Based on polymerization-induced phase separation and droplet coalescence in microfluidics, we prepared emulsions of variously shaped PAM/PEG core/shell droplets and hydrogels composed of two separated components, which show flexible and transformable hierarchical structures and microarchitectures. We find that AM/PEG aqueous droplets form a core/shell structure after polymerization resulting from phase separation. Thus multicore/shell droplets are easily produced by coalescence of core/shell structures. By changing the polymerization temperature and the flow rate, the morphology of the multicore droplets and the hydrogel can be easily adjusted. The hydrogels exhibit apparent anisotropy and different protein release rates depending on their structures. The preparation technique is simple and versatile and the resulting hydrogels have potential applications in many fields.
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