Review Article
Recent Advances in Facile Synthesis of Bimetallic Nanostructures: An Overview
Table 2
Wet chemical methods for synthesis of AuAg nanostructures.
| Method | Morphology | Structure | Metallic salts | Reductant | Additive agent | Application | Performance | References |
| Reduction | Nanoparticles | 0D | HAuCl4 | Ag2SO4 | Tyrosine | KOH | Catalysis | Not reported | [108] | One-pot reduction | Core/shell | 0D | HAuCl4-3H2O | AgNO3 | PEO-PPO | ⋯ | Catalysis | Not reported | [109, 110] | Reduction | Nanocages | 0D | HAuCl4 | Ag | PVP | HCl | SPR | Not reported | [111] | Reduction | Nanoparticles | 0D | HAuCl4 | AgNO3 | NaBH4 | ⋯ | CO oxidation | 5 times better CO oxidation | [113] | Reduction | Nanoparticles | 0D | HAuCl4-3H2O | AgNO3 | Volvariella volvacea | ⋯ | Catalysis | Not reported | [114] | Reduction | Nanoparticles | 0D | Au | AgNO3 | SDS | ⋯ | Catalysis | Not reported | [115] | Reduction | Core/shell | 0D | Au | AgClO4 | ⋯ | ⋯ | SPR | 18 times the Au particles/ | [116] | Reduction | Nanowire | 1D | HAuCl4 | Ag | ⋯ | ⋯ | SERS | Not reported | [117] | Reduction | Nanoparticles | 0D | HAuCl4 | Ag(NH3)2OH | Pueraria starch-DPS | ⋯ | Catalysis | Not reported | [119] |
|
|