Preparation of Ti mesh supported N–S–C-tridoped TiO₂ nanosheets to achieve high utilization of optical energy for photocatalytic degradation of norfloxacin

Abstract: The Ti mesh supported N–S–C-tridoped TiO2 nanosheet (N–S–C/TiO2/TMs) catalysts were successfully fabricated by the one-step in situ hydrothermal synthesis method, and then used for photocatalytic degradation of norfloxacin.

“…In PAM-assisted P-10-80-120-uncal samples, a peak at 399.9 eV is observed in addition to the acyl functional group (401.5 eV) on PAM and the N atom (402.6 eV) on the template TPAOH, which might be ascribed to the N–Ti–O bond formed by the coordination of the amino group on PAM with titanium. 62–68 Combined with the previous reports and the above results, we hypothesize that some PAM molecules may have coordinated directly to the Ti sites, forming a hexacoordinate Ti species with PAM molecule ligands (TiO 6 (PAM)) (Fig. 5c).…”

Impact of a polymer modifier on directing the non-classical crystallization pathway of TS-1 zeolite: accelerating nucleation and enriching active sites

“…In PAM-assisted P-10-80-120-uncal samples, a peak at 399.9 eV is observed in addition to the acyl functional group (401.5 eV) on PAM and the N atom (402.6 eV) on the template TPAOH, which might be ascribed to the N–Ti–O bond formed by the coordination of the amino group on PAM with titanium. 62–68 Combined with the previous reports and the above results, we hypothesize that some PAM molecules may have coordinated directly to the Ti sites, forming a hexacoordinate Ti species with PAM molecule ligands (TiO 6 (PAM)) (Fig. 5c).…”

Impact of a polymer modifier on directing the non-classical crystallization pathway of TS-1 zeolite: accelerating nucleation and enriching active sites

“…In recent years, two-dimensional (2D) materials have demonstrated unique physicochemical properties with great potential for photocatalysis, lithium-ion storage and relevant application. [24][25][26] To be specic, 2D materials offer the ultrahigh surface area for sufficient contact with reactants and shorter bulk-to-surface distance for efficient charge transportation. Cui et al exploited a universal alkaline-free strategy to synthesize 2D TiO 2 nanobelts, which exhibited greatly increasing electrolyte/ electrode contact area and shorten diffusion distance of Li ions, in turn delivering excellent electrochemical performance.…”

Enhanced active oxidative species generation over Fe-doped defective TiO₂ nanosheets for boosted photodegradation

Nanocomposites for Overall Water-Splitting