4 photocatalytic positions at CNRS

Plasmonic photocatalysis for asymmetric reactivity (M/F)

and asymmetric photocatalytic reactions solely driven by plasmons.[2] Different chiral plasmonic systems with chiroptical responses at different energy scales (from the UV to the NIR) will be used as

Post-doctoral position (M/F) to study the EPR/time-resolved spectroscopy of diarylethene-functionalized polyoxometallates.

new avenues in photocatalytic applications by leveraging these long-lived charge-separated states. (collaboration Chris Ritchie, Monash University) The researcher's mission will be to carry out a new

PhD (M/F) candidate for the development of a hybrid process of water treatment based on microalgae cultivation and 3D macroporous structures of metallic oxide nanoparticles.

, shapes and sizes have been found to be effective in removing environmental pollutants from water through photocatalytic activities. Among these nanostructures, composites based on CuO and ZnO nanoparticles

Post-doctoral position (M/F) to study the EPR/time-resolved spectroscopy of diarylethene-functionalized polyoxometallates.

suggests that POM-DAE combinations could open new avenues in photocatalytic applications by leveraging these long-lived charge-separated states. This project will explore detailed photo physics of more such