Research progress of vanadium pentoxide photocatalytic materials

Abstract: Photocatalytic reactions convert solar energy into chemical energy through a clean and green reaction process.

“…Oxidation degradation methods, including photocatalytic oxidation, 88,89 O 3 treatment, 90,91 Fenton processes, 92,93 electrochemical techniques, 94,95 and others, offer advantages such as enhanced oxidation efficiency, making them promising approaches for water treatment and environmental remediation. 96,97 Among these methods, photocatalytic oxidation and conventional heterogeneous catalytic oxidation 98 have emerged as prominent techniques for the degradation of DBP. 99 Consequently, this article is dedicated to a comprehensive exploration of DBP degradation using these two methodologies.…”

Efficient removal of dibutyl phthalate from aqueous solutions: recent advances in adsorption and oxidation approaches

“…Oxidation degradation methods, including photocatalytic oxidation, 88,89 O 3 treatment, 90,91 Fenton processes, 92,93 electrochemical techniques, 94,95 and others, offer advantages such as enhanced oxidation efficiency, making them promising approaches for water treatment and environmental remediation. 96,97 Among these methods, photocatalytic oxidation and conventional heterogeneous catalytic oxidation 98 have emerged as prominent techniques for the degradation of DBP. 99 Consequently, this article is dedicated to a comprehensive exploration of DBP degradation using these two methodologies.…”

Efficient removal of dibutyl phthalate from aqueous solutions: recent advances in adsorption and oxidation approaches

“…Among the above semiconductor materials, V 2 O 5 has a smaller bandgap width (2.2 eV) and energy level matching that of anode auxiliary materials. 13 Besides, nanofibrous V 2 O 5 has a good network interlayer structure and smaller grain size, which is conducive to the transport of charge carriers, 14 so these characteristics may enhance the electrochemical performance of energy storage. 15 At the same time, due to the small bandgap width of V 2 O 5 nanofibers, they exhibit better visible light absorption performance, which is conducive to improving the photocharging performance of supercapacitors.…”

Preparation of an aqueous zinc ion rGH/V₂O₅ photorechargeable supercapacitor

“…To overcome such inherent challenges, the construction of a Z-scheme heterojunction is considered to hold great promise for the enhancement of photogenerated charge carrier separation and the efficiency of single-component photocatalysts . Vanadium pentoxide (V 2 O 5 ) has attracted widespread interest as a photocatalyst because of its unique physical and chemical properties, such as a narrow band gap, a layered structure, a multiprice state, etc . To the best of our knowledge, the application of the V 2 O 5 /g-C 3 N 4 heterojunctions in organic reactions is still relatively rare .…”

Recyclable V₂O₅/g-C₃N₄ Heterojunction-Catalyzed Visible-Light-Promoted C3–H Trifluoromethylation of Quinoxalin-2-(1H)-ones