by Keyword: Polymeric high internal phase emulsion (polyhipe)
Chen, JY, Xie, ZD, Sapienza, R, Hu, ZJ, Ruiz-Pérez, L, Tian, XH, Battaglia, G, (2025). Supramolecular Design of Polymeric Random Lasers Advanced Optical Materials , 
Random lasers (RLs) represent a distinctive class of laser systems wherein emission arises from multiple scattering events occurring with random orientations within a disorder media. Departing from conventional laser architectures, RL emission is primarily governed by random scattering phenomena, inherently limiting precise control over emission directionality and threshold intensity. Achieving a laser system with finely controllable RL characteristics poses a significant challenge. In this investigation, using polymeric high internal phase emulsion (PolyHIPE) scaffolds, known for their highly customizable surface topographies, is exploredas scattering media platforms for RLs. Dye on the PolyHIPE surface enables interaction with external stimuli, showing sensing potential. Using surface chemical modification techniques, the amphiphilic molecular is grafted onto the HIPE surface and RL behavior is investigated across HIPEs with controllable pore sizes. Notably, a discernible correlation emerges between the RL threshold and the collective influence of polyHIPE platform morphology and gain particle configuration. This heightened adaptability and finely tunable precision in the RL system offer increased versatility, enabling the tailored design of optimal lasers suited for diverse application scenarios. Consequently, these advancements substantially enhance the utility and versatility of RLs in various fields.
JTD Keywords: Block copolymers, Mar, Polyhipes, Polymeric high internal phase emulsion (polyhipe), Porous materials, Random lase