2. Summary of Different Dopings in Ag-Based Semiconductors .
| material | synthetic method | dopant | concentration (%) | morphology | defect analysis | application | ref |
|---|---|---|---|---|---|---|---|
| α-Ag2WO4 | microwave hydrothermal | Ni2+ | 0–8 | hexagonal rod-like and hexagons | PL | ||
| α-Ag2WO4 | microwave hydrothermal | Mo6+ | 25 | hexagonal rod-like | PL | photocatalysis of RhB | |
| α-Ag2WO4 | coprecipitation | Cu2+ | 0–16 | hexagonal rod-like | PL and XPS | antimicrobial | |
| α-Ag2WO4 | coprecipitation | Zn2+ | 0–25 | hexagonal rod-like | PL | ||
| α-Ag2WO4 | coprecipitation | V4+/5+ | 0–4 | hexagonal rod-like and parallelepiped-like | PL, XPS, and EPR | sulfide Oxidation | |
| β- and α-Ag2WO4 | coprecipitation | Eu3+ | 2 | PL | |||
| α-Ag2WO4 | coprecipitation | Eu3+/Li+ | 1–8 | hexagonal rod-like | PL | ||
| α-Ag2WO4 | coprecipitation | Pr3+, Sm3+, Eu3+, Tb3+, Dy3+ and Tm3+ | 1 | hexagonal rod-like | PL | ||
| β-Ag2WO4 | coprecipitation | S2+, P3+, and B3+ | 20 | hexagonal rod-like and irregular shape | XPS | photocatalysis of carmine dye | |
| β-Ag2MoO4 | coprecipitation | Eu3+ | 0–1 | potato-like and cubes | PL | ||
| β-Ag2MoO4 | microwave hydrothermal | Eu3+ | 1 | cubes | PL and PALS | ||
| β-Ag2MoO4 | coprecipitation | Dy3+ | 0–2.5 | PL and PALS | |||
| Ag2CrO4 | coprecipitation | Eu3+ | 0–1 | irregular shape | PL and XPS | photocatalysis of 4-NP and ciprofloxacin | |
| Ag2CrO4 | coprecipitation | Zn2+ | 1–4 | irregular shape | PL and XPS | photocatalysis of RhB and antimicrobial |
a
RhB = rhodamine B; 4-NP = 4-nitrophenol.