Sheng Yifeng, Lin Kuanting, Binks Bernard P, Ngai To
Department of Chemistry, The Chinese University of Hong Kong, Shatin, NT, Hong Kong.
Department of Chemistry and Biochemistry, University of Hull, HU6 7RX, United Kingdom.
J Colloid Interface Sci. 2020 Nov 1;579:628-636. doi: 10.1016/j.jcis.2020.06.098. Epub 2020 Jun 26.
Interfacial assembly between nanoparticles and complementary ligands can in-situ generate Janus-like particles, rendering high stability of a Pickering-based system. Hence, through the self-assembly and formation of a Janus structure at the air/water interface, which is composed of a hydrophobic particle layer in the inner air phase and then a hydrophilic polymer layer in the aqueous phase, it should be possible to fabricate ultra-stable Pickering foams.
Foams containing different highly hydrophobic particles and hydrophilic polymers or microgels were prepared, and their stability was investigated. The interfacial structure of the Pickering bubbles was examined, where a new mechanism for ultra-stable foam formation was established. The properties of the foams were further demonstrated.
The interfacial co-assembly exploiting binary foam stabilizers being very hydrophobic particles and a hydrophilic polymer/particle results in the formation of ultra-stable Pickering foams. The generation of a Janus bilayer at the interface is the key factor responsible for their high stability. This strategy can be universally applied to any kind of highly hydrophobic particle with various hydrophilic polymers or colloids. The obtained foams demonstrate excellent tunability and plasticity, which could be used for mold-casting and printing.
纳米颗粒与互补配体之间的界面组装能够原位生成类 Janus 颗粒,从而使基于 Pickering 的体系具有高稳定性。因此,通过在空气/水界面进行自组装并形成 Janus 结构,该结构由内部空气相中的疏水颗粒层以及水相中的亲水聚合物层组成,应该能够制备出超稳定的 Pickering 泡沫。
制备了含有不同高疏水性颗粒和亲水性聚合物或微凝胶的泡沫,并研究了它们的稳定性。研究了 Pickering 气泡的界面结构,在此基础上建立了一种超稳定泡沫形成的新机制。进一步展示了泡沫的性质。
利用二元泡沫稳定剂(即非常疏水的颗粒和亲水性聚合物/颗粒)进行界面共组装,可形成超稳定的 Pickering 泡沫。界面处 Janus 双层的生成是其高稳定性的关键因素。该策略可普遍应用于任何种类的高疏水性颗粒与各种亲水性聚合物或胶体。所获得的泡沫表现出优异的可调节性和可塑性,可用于模铸和打印。
