Non‐Aqueous Polyhedral Liquid Marbles Stabilized with Polymer Plates Having Surface Roughness

Abstract Hydrophobic polymer plates with smooth and rough surfaces are used as a stabilizer for cubic liquid marbles (LMs) to study the effect of surface roughness on their formation. The smooth and rough polymer plates can stabilize LMs using liquids with surface tensions of 72.8–26.6 and 72.8–22.9 mN m −1 , respectively. It is clarified that the higher the surface roughness, the lower the surface tension of the liquids are stabilized to form the LMs. These results indicated that the introduction of surface roughness improves the hydrophobicity of the polymer plates and the rough polymer plates can stabilize LMs using liquids with a wider surface tension range. Electron microscopy studies and numerical analyses confirmed that the LMs can be formed, when the Cassie‐Baxter wetting state, where θ Y >90° (θ Y : the contact angle on smooth surfaces) and θ R >90° (θ R : the contact angle on rough surfaces), and the metastable Cassie‐Baxter wetting state, where θ Y <90° and θ R >90°, are realized. Finally, the synthesis of cubic polymer particles are succeeded by free radical polymerization of the cubic LMs containing a hydrophobic vinyl monomer (dodecyl acrylate) in a solvent‐free manner.