Department of Chemical and Petroleum Engineering, University of Calgary, Calgary T2N 1N4, Canada.
Langmuir. 2021 Feb 2;37(4):1353-1364. doi: 10.1021/acs.langmuir.0c02408. Epub 2021 Jan 22.
Stimuli-responsive emulsifiers have emerged as a class of smart agents that can permit regulated stabilization and destabilization of emulsions, which is essential for food, cosmetic, pharmaceutical, and petroleum industries. Here, we report the synthesis of novel "smart" hydroxyapatite (HaP) magnetic nanoparticles and their corresponding stimuli-responsive Pickering emulsions and explore their movement under confined spaces using a microfluidic platform. Pickering emulsions prepared with our magnetic stearic acid-functionalized FeO@HaP nanoparticles exhibited pronounced pH-responsive behavior. We observed that the diameter of emulsion droplets decreases with an increase in pH. Swift demulsification was achieved by lowering the pH, whereas the reformation of emulsions was achieved by increasing the pH; this emulsification-demulsification cycling was successful for at least ten cycles. We used a microfluidic platform to test the stability of the emulsions under flowing conditions and their response to a magnetic field. We observed that the emulsion stability was diminished and droplet coalescence was enhanced by the application of the magnetic field. The smart nanoparticles we developed and their HaP-based emulsions present promising materials for pharmaceutical and petroleum industries, where responsive emulsions with controlled stabilities are required.
刺激响应型乳化剂作为一类智能试剂已经出现,它们可以调节乳液的稳定和失稳,这对于食品、化妆品、制药和石油工业是至关重要的。在这里,我们报告了新型“智能”羟基磷灰石(HaP)磁性纳米粒子的合成及其相应的刺激响应型 Pickering 乳液,并使用微流控平台探索了它们在受限空间中的运动。我们用磁性硬脂酸功能化的 FeO@HaP 纳米粒子制备的 Pickering 乳液表现出明显的 pH 响应行为。我们观察到乳液液滴的直径随 pH 值的增加而减小。通过降低 pH 值可以迅速破乳,而通过增加 pH 值可以实现乳液的再形成;这种乳化-破乳循环至少可以成功进行十次。我们使用微流控平台在流动条件下测试乳液的稳定性及其对磁场的响应。我们观察到施加磁场会降低乳液的稳定性并增强液滴聚结。我们开发的智能纳米粒子及其基于 HaP 的乳液为制药和石油工业提供了有前途的材料,因为这些行业需要具有可控稳定性的响应性乳液。
