Review Article
A Review on Polyaniline: Synthesis, Properties, Nanocomposites, and Electrochemical Applications
Table 3
Summary of some polyaniline nanocomposites synthesis with metal oxide nanostructures.
| No. | PANI nanocomposite type | Dopant | Preparation method | References |
| 1. | PANI/TiO2 | TiO2 | In situ deposition oxidative polymerization | [138] | 2. | PANI/MnO2 | MnO2 | Simultaneous-oxidation route | [7] | 3. | PANI/MgO | MgO | In situ polymerization method | [139] | 4. | PANI/ZnO | ZnO | In situ chemical oxidation method | [140] | 5. | PANI/NiO | NiO | Electrodeposition method | [141] | 6. | PANI/Fe2O3 | Fe2O3 | In situ polymerization | [142] | 7. | PANI/γ-Fe2O3 | γ-Fe2O3 | In situ polymerization | [143] | 8. | PANI/α-Fe2O3 | α-Fe2O3 | In situ polymerization | [144] | 9. | PANI/CuO | CuO | In situ polymerization | [145] | 10. | PANI/Co3O4 | Co3O4 | In situ polymerized method | [146] | 11. | PANI/V2O5 | V2O5 | Chemical oxidation method | [147] | 12. | PANI/RuO2 | RuO2 | Chemical bath deposition (CBD) method | [148] | 13. | PANI/SnO2 | SnO2 | Chemical oxidative polymerization | [149] | 14. | PANI/Sm2O3 | Sm2O3 | In situ oxidative polymerization | [150] | 15. | CeO2/PANI | CeO2 | Chemical oxidative polymerization | [151] | 16. | PANI/Al2O3 | Al2O3 | Surface initialized polymerization (SIP) method | [152] |
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