Aero-GaN and ZnO microtetrapods functionalized with metal nanodots for photocatalytic degradation of tetracycline

CIOBANU, V.; GALATONOVA, T.; URBANEK, P.; BRANISTE, T.; DOROFTEI, F.; MASAR, M.; SULY, P.; URSAKI, V.; HANULIKOVA, B.; SOPIK, T.; SEDLARIK, V.; KURITKA, I.; TIGINYANU, I.

Aero-GaN and ZnO microtetrapods functionalized with metal nanodots for photocatalytic degradation of tetracycline

CIOBANU, V.; GALATONOVA, T.; URBANEK, P.; BRANISTE, T.; DOROFTEI, F.; MASAR, M.; SULY, P.; URSAKI, V.; HANULIKOVA, B.; SOPIK, T.; SEDLARIK, V.; KURITKA, I.; TIGINYANU, I.

URI: http://repository.utm.md/handle/5014/28617

Date: 2024

Abstract:

This study reports on the fabrication of a novel photocatalyst material characterized by ultra-porous structures formed from interconnected hollow microtetrapods of gallium nitride (GaN) or zinc oxide (ZnO). The specific surface area was estimated to be about 0.2 m2/gr and 4.7 m2/gr for ZnO and aero-GaN, respectively, according to BET measurements. The photocatalytic efficiency of these nanomaterials, enhanced with noble metal nanodots, was validated through the complete degradation of tetracycline under both UV and solar light exposure. Given its substantial surface area and improved chemical stability compared to traditional ZnO, the 3D aero-GaN/ZnO composite emerges as a promising candidate for photocatalytic applications and filtration systems.