Review Article
Recent Advances in Facile Synthesis of Bimetallic Nanostructures: An Overview
Table 3
Wet chemical methods for synthesis of AuPd nanostructures.
| | Method | Morphology | Structure | Metallic salts | Reductant | Additive agent | Application | Performance | References |
| | Replacement | Tadpole shapes | 1D | HAuCl4 | Pd | PVP | ⋯ | Catalysis | Not reported | [125] | | Reduction | Flower shapes | 3D | HAuCl4 | K2PdCl4 | Ascorbic acid | PVP | SERS | 3.5 times Pd NPs | [126] | | Reduction | Nanoparticles | 0D | [Au(en)2]Cl3 | Pd(NH3)4Cl2 | CTAB | ⋯ | Fuel cell | Not reported | [127] | | Reduction | Nanoparticles | 0D | HAuCl4 | K2PdCl4 | CTAB | ⋯ | Catalysis | Not reported | [112] | | Reduction | Nanoparticles | 0D | HAuCl4 | Pd NCs | Ascorbic acid | ⋯ | SPR | Not reported | [128] | | Reduction | Nanoparticles | 0D | HAuCl4 | Pd(acac)2 | Oleylamine | ⋯ | Catalysis | Not reported | [129] | | Reduction | Nanoparticles | 0D | HAuCl4 | PdCl2 | Cacumen platycladi extract | ⋯ | Catalysis | Not reported | [130] | | Reduction | Nanostructure | 3D | HAuCl4 | PdCl2 | Dextran | ⋯ | SERS | High SERS (6G) | [131] | | Reduction | Nanoparticles | 0D | NaAuBr4 | K2PdCl4 | L-Ascorbic acid | CTAC | Fuel cell | Not reported | [132] | | Reduction | Nanoparticles | 0D | HAuCl4 | Na2PdCl4 | Ascorbic acid | ⋯ | Cancer cell sensing | Not reported | [133] |
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