Table 2.
Work function data for graphene based noble metal composites.
| S.No. | Modified Graphene | Method | Precursor | WF (eV) | Improved property | Application | Ref. |
|---|---|---|---|---|---|---|---|
| 1 | Graphene-ZnO-Au | Hydrothermal | Zn Acetate , HAuCl4 | Value not given | Efficiency = 3.5–4.5 fold more than ZnO | Removing pollutant (nitrobenzene) | [157] |
| 2 | Various Au dopants on graphene | Chemical doping | AuBr3, Au2S, Au(OH)3, AuCl3 | 5, 4.8, 4.6, 4.9 as doped and 4.5, 4.4, 4.55, 4.3 eV as annealed (w.r.t. the precursor) | Multiuse of graphene due to tunable WF property | Energy conversion devices and sensors | [159] |
| 3 | Au/graphene | Chemical doping | AuCl3 | Increase by 0.5 eV with increase in doping time | Tunable WF property | Optoelectronic devices | [60] |
| 4 | Ag/graphene | Photochemical silver functionalization | AgNO3 | Value not given | Suppressed e-h recombination | Efficient removal of hazardous materials | [161] |
| 5 | Au/Ag/Pt-graphene | Graphene adsorption metal substrate | Au, Ag, Pt substrates were used | 5.54–4.74, 4.92–4.24, 6.13–4.8 eV | Multipurpose modified graphene | Energy conversion devices | [168] |