GO–Mg |
–C–O–Mg bond |
Hydrogen storage via adsorption |
71 and 72
|
GO–Pd |
Hydrothermal method |
Non-linear optical device |
GO–MgO |
|
|
GO/V2O5, GO/TiO2
|
GO decorated by metal oxide nanoparticles |
Hydrogen storage |
73 and 74
|
GO/Zn2–GeO4
|
|
Li-ion batteries |
76
|
GO/MnO2
|
|
Supercapacitor |
80
|
GO–CuO |
Sonochemical precipitation method |
Supercapacitor with good specific capacitance |
108
|
GO–ZnO/Cu2O |
Electrochemical deposition technique |
Heterojunction solar cell |
115
|
GO–ZnO nanorod |
GO–ZnO–NR–GO sandwich structure |
Optoelectronic property |
154
|
GO–ZnO |
Hierarchical nanocomposite |
Supercapacitor |
155
|
GO–ZnO/NiO |
Co-precipitation, novel mesostructure |
Good supercapacitance |
190
|
GO–PAn, GO–PPy |
Chemical oxidative polymerization |
Energy storage, supercapacitor |
255, 262–264 and 269
|
Nanofilm |
LbL and LB technique |