RESUMO
Janus particles contain two or more chemical properties typically on opposing faces. With various property combinations possible, there are several potential applications, such as surfactants and drug delivery. However, scaling up the particle production process at reasonable cost is a limiting factor, and the method reported here aims to circumvent this issue. The process is based on a top-down destructive strategy that consists of two steps. Photocatalytic titanium dioxide particles prefunctionalized with a surface coating were assembled as particle films via spin-coating on a substrate. The particle films were placed directly under an ultraviolet light source, which induced the photodegradation of the surface coating only on the particle surfaces exposed to the light. The generated Janus particles were amphiphobic-amphiphilic in character. The Janus particles had a theoretical Janus balance close to ideal and remained attached at a hexane/water interface after disruption. They were able to make Pickering emulsions of water in silicone oil with a low energy input. The reported method may be easily scaled up to facilitate the production of gram-scale yields. The use of UV is clean and efficient and can be applied to semiconductor particles with surface coatings that are susceptible to photodegradation, making this method highly versatile.
RESUMO
Janus particles are a class of materials that exhibit two contrasting properties. They possess unique properties, such as the ability to self-assemble at dissimilar liquid interfaces. Achieving high production yields remains a challenge to the practical application of Janus particles, as existing methods are generally tedious in the preparation procedures. The aim of this work is to prepare Janus particles using a process that is simple to facilitate scaling up. Semiconductor titanium dioxide (TiO2) and cuprous oxide (Cu2O) particles, pre-functionalized with hydrophobic coatings, were assembled at an air-water interface. The particles were then subjected to ultraviolet irradiation, which degraded the hydrophobic coating on the exposed side, and subsequently recovered through the removal of water. Janus particles that contained contrasting wettability over their surfaces were successfully obtained; the particle surfaces were demonstrated to be partially functionalized through comparison in the self-assembly behavior with fully-functionalized and non-functionalized particles. The obtained TiO2 Janus particles have demonstrated a Janus balance factor close to 1, and remained attached to the oil/water interface with long-term stability. The presence of a photocatalytic substrate was found to be necessary to accelerate the degradation of the coating. Different alkylsilane coatings, particle types, and irradiation durations were examined, leading to different types of Janus particles. The method can be potentially extended to other semiconductor metal oxide particles to generate Janus-like properties.