超声
超声波传感器
化学工程
皮克林乳液
材料科学
曝气
制作
空化
纳米颗粒
声化学
乳状液
纳米材料
纳米技术
嫁接
有机化学
复合材料
化学
机械
声学
物理
工程类
医学
病理
聚合物
替代医学
作者
Fiona Chen,Chen Dong,C. Chen,Weiqing Yin,Wei Zhai,Xiaoyan Ma,B. Wei
标识
DOI:10.1016/j.ultsonch.2019.104705
摘要
Abstract Ultrasonic synthesis has shown great potential applications in preparing varieties of nanostructured materials. However, fabrication of nanomaterials with tunable structures and desirable properties is still challenging because of the instability and nonuniform distribution of cavitation effect in liquid phase. In this study, a novel aeration tuned ultrasonic synthesis approach is proposed for optimizing the cavitation effect in both time and space scales and fabricating SiO2@PNIPAm NPs. By alternation of ultrasonication and N2 aeration, more and more gas bubbles are formed in the reaction liquid, and the collapse of those bubbles is further enhanced by the reactants of solid SiO2 and intermediate functionalized SiO2 NPs. As a result, SiO2@PNIPAm NPs with various grafting ratios are successfully synthesized simply by changing the number of ultrasonic synthesis cycle. The SiO2@PNIPAm NPs are subsequently used as stabilizer to form Pickering emulsions with different temperature response. This work provides a potential facile sonochemical synthesis method with high efficiency in obtaining inorganic/organic NPs of well determined structures.
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