Poly(,-diethylacrylamide)-endowed spontaneous emulsification during the breath figure process and the formation of membranes with hierarchical pores

The spontaneous emulsification for the formation of water-in-oil (W/O) or oil-in-water (O/W) emulsions needs the help of at least one kind of the third component (surfactant or cosolvent) to stabilize the oil-water interface. Herein, with the water/CS 2 -soluble polymer poly( N , N -diethylacrylamide) (PDEAM) as a surfactant, the spontaneous formation of water-in-PDEAM/CS 2 emulsions is reported for the first time. The strong affinity between PDEAM and water or the increase of PDEAM concentration will accelerate the emulsification process with high dispersed phase content. It is demonstrated that the spontaneous emulsification of condensed water droplets into the PDEAM/CS 2 solution occurs during the breath figure process, resulting in porous films with two levels of pore sizes ( i.e. , micron and submicron). The emulsification degree and the amounts of submicron-sized pores increase with PDEAM concentration and solidifying time of the solution. This work brings about incremental interest in spontaneous emulsification that may happen during the breath figure process. The combination of these two simultaneous processes provides us with an option to build hierarchically porous structures with condensed and emulsified water droplets as templates. Such porous membranes may have great potential in fields such as separation, cell culture, and biosensing. The breath figure process based on a spontaneous emulsification system composed of PDEAM/CS 2 and water generates hierarchical pores templated by micron-sized condensed droplets and submicron-sized emulsified droplets.