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. 2022 Feb 16;12(9):5686–5719. doi: 10.1039/d1ra06731a

GO–MO hybrids with catalytic and energy storage properties (solar cells, supercapacitors, H-storage, and Li ion batteries).

Composition Synthesis/structure Utility Ref.
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