Photodegradation of pollutants based on ZnSnO3 materials and their performance.
| Materials | Morphology | Light source | Time | Dye | Efficiency (%) | Ref. |
|---|---|---|---|---|---|---|
| ZnSnO3/rGO | Nanosheets | Visible-light | 35 | MB | 85 | 76 |
| 90 | Phenol | 72.89 | ||||
| ZnSnO3 | Nanocubes | UV | 80 | RhB | 98.1a | 99 |
| 76.8 | ||||||
| S-ZnSnO3 | Hollow cubes | Visible-light | 100 | RhB | 90 | 147 |
| ZnSnO3/rGO/MoS2 | Nanosheets | UV | 100 | MB | 86 | 153 |
| RhB | 78 | |||||
| ZnSnO3 | Hollow cubes | Xe | 100 | MB | 96.52 | 116 |
| CIP | 85.9 | |||||
| ZnSnO3/rGO | 3D folded | Visible | 120 | CIP | 100 | 154 |
| ZnSnO3 | Nanostructures | UV | 120 | Acid brown 14 | 92 | 103 |
| ZnSnO3/rGO | Hollow nanospheres | Visible light | 180 | Metronidazole | 72.5 | 132 |
| ZnSnO3/ZnO | Nanocubes | UV | 60 | Phenol | 47 | 151 |
| AgI/ZnSn(OH)6 | Nanocubes | Visible light | 40 | RhB | 100 | 155 |
| 60 | TOC | 91 | ||||
| ZnSnO3 | Nanourchins | UV | 90 | MO | 98 | 75 |
| 2,5-DCP | 95 | |||||
| ZnSnO3/g-C3N4 | Nanosheets | Visible | 120 | Tetracycline | 85 | 156 |
| ZnSnO3/g-C3N4 | Nanocubes | Visible | 120 | Tetracycline | 90.8 | 157 |
| Cu3P/ZnSnO3/g-C3N4 | Nanocubes | Xe lamp | 60 | Tetracycline | 98.45 | 158 |
| CoP/ZnSnO3 | Nanocubes | Visible | 60 | Tetracycline | 96.44 | 159 |
| CDs-ZnSnO3 | Nanocubes | Visible | 60 | Tetracycline | 81.76 | 144 |
| NDs/ZnSnO3 | Nanocubes | Visible | 120 | Tetracycline | 90 | 160 |
| Ag–ZnSnO3 | Hollow nanocubes | UV | 240 | Caffeine | 68b | 143 |
| 100c |
a
Pyro-/photo-bi-catalysis.
b
pH = 6.5.
c
pH = 7.5.