"Revolutionary Porous Materials: Advancing Electronics and Photocatalysis"
Originally Published 2 years ago — by Phys.org
Researchers at KAUST have developed a simple and reproducible technique for creating highly porous poly(aryl thioether) materials, which have potential applications in photocatalysis and optoelectronics. The material, made through a polycondensation reaction, exhibits a high surface area and pore size of less than a nanometer. It has shown promise in removing organic micropollutants and toxic mercury ions from water. The researchers aim to collaborate with the electronics industry and water treatment facilities to further explore the material's potential.