Associate Prof. Ziyang Lu Published article on Composites Science and Technology with the title of "Construction of internal electric field in imprinted poly (ionic liquid)-TiO2 composite nanoreactor for improving hole directional enrichment and selective photodegradation".
Abstract: At present, the combination of photocatalysis technology and imprinting technology can selectively remove specific highly toxic pollutants in complex water environments, but the preparation process of traditional organic imprinted layer uses highly toxic solvents such as acetone and toluene, which is not in line with the concept of cleaner production. In this work, imprinted poly (ionic liquid)-TiO2 composite nanoreactor (I-PIL-TiO2) was synthesized by the microwave-assisted in-situ polymerization in non-toxic aqueous phase. The S-scheme heterojunction made of I-PIL wrapping TiO2 had improved the rapid separation and migration of carriers and increased carrier density, which was closely related to the formation of internal electric field (IEF) driven channels in the interface. The results showed that the orientation of the IEF was from TiO2 to I-PIL, so that photogenerated holes (h+) were accelerated to migrate to I-PIL through the interface channel, which was conducive to h+ directly attacking LEV. The photocatalytic activity of I-PIL-TiO2 was 1.69 times higher than that of TiO2. More interestingly, the presence of IEF increased the enrichment ability of h+ in imprinted cavities, improved the selective degradation ability of the composite nanoreactor, and maintained stable performance in the swine wastewater. This work provided a feasible way to synthesize polymer-inorganic composite photocatalytic materials with good interfacial charge transfer by simple and green method.
Acknowledgements: National Natural Science Foundation of China, Young Scientific and Technological Talents Support Project of Jiangsu Association for Science and Technology, etc.
Full text link: https://doi.org/10.1016/j.compscitech.2022.109657