1 article(s) from Acharya, Rashmi
Figure 1: Speciation diagram of Cr(VI). Reprinted from [6], copyright 2016 Thermo Fisher Scientific Inc.
Figure 2: The band edge potentials and band gaps of different semiconductors that combine with TiO2 for enhan...
Figure 3: Mechanism of photocatalytic reduction of Cr(VI) over neat TiO2. (D = donor, D+ = oxidized product).
Figure 4: Photoluminescence spectra of bare TiO2 and Cu2O–TiO2 samples. Reprinted from [96], copyright 2016 Sprin...
Figure 5: I–V (current intensity–applied voltage) curve. Reprinted from [97], an article distributed under the Cr...
Figure 6: Comparison of arc radius of Nyquist plot between bare TiO2 and modified TiO2 (MFe2O4/ TiO2) samples...
Figure 7: Transport of photoinduced electrons from the conduction band of TiO2 through an RGO sheet, resultin...
Figure 8: RGO–TiO2 core–shell Z scheme for photocatalytic reduction of Cr(VI). Reprinted from [134], an article di...
Figure 9: Mechanism for photocatalytic reduction of Cr(VI) by TiO2–MOx under irradiation of visible light.
Figure 10: Mechanism of reduction of Cr(VI) using a Au/TiO2−Pt plasmonic photocatalyst under visible-light irr...
Figure 11: Mechanism for the photocatalytic Cr(VI) reduction by a dye-sensitized TiO2 nanocatalyst.
Figure 12: (a) Recyclability of TiO2/Fe3O4 towards photoreduction of Cr(VI) up to 4 cycles, and (b) images of ...
Figure 13: Summary of narrow band gap semiconductors that can be combined with TiO2 for effective photocatalyt...