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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
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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
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, 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
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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