Developing of semi-transparent α-Fe2O3/Cu2O heterostructures with S-scheme photocatalytic activity and biological interests

“…The peak at 532.5 eV may be caused by a large amount of H 2 O adsorbed on the BN surface. 28,29 The N 1s and B 1s spectra of BNC2 and BN (Fig. 2e and f) are similar.…”

2D boron nitride supported Cu₂O promotes photocatalytic nitrogen fixation at normal temperature and pressure

“…The peak at 532.5 eV may be caused by a large amount of H 2 O adsorbed on the BN surface. 28,29 The N 1s and B 1s spectra of BNC2 and BN (Fig. 2e and f) are similar.…”

2D boron nitride supported Cu₂O promotes photocatalytic nitrogen fixation at normal temperature and pressure

“…In contrast, metal oxide heterostructure also release electrons, but these electrons react with water and dissolved oxygen to create hydroxyl radicals, which attack and oxidize the dye's ion free radicals. This organic dye is lethal, free of degradable impurities even at low concentrations, and extremely practical in the treatment of wastewater [35]. The removal of MR under visible light and the time-oriented adsorption (in both the light and the dark).…”

Microwave assisted hydrothermal synthesis of Bi2O3 /Ag2O heterostructures with highly enhanced photocatalysis and their biological interest

Designing of graphene oxide–induced p-NiO/n-MoO3 heterostructures for improved photocatalytic activity through plasmon-enhanced S-scheme mechanism and its biological and electrochemical performance