Table 1 The performance of Ni-based nanomaterials
Material | Preparation method | Structure | Surfactant | Reducing agent | Hc (Oe) | RL (dB) | Ref. |
---|---|---|---|---|---|---|---|
Ni | Solvothermal method | Nanocrystals | PVP | N2H4 | 167.0 | – | [30] |
Ni | Microwave irradiation | Icosahedral nanocrystals | TOPO | – | 164.0 | – | [53] |
Ni | Thermal decomposition | Nanoparticles | ACA, TOPO | Alkylamine | 290.0 | [34] | |
Ni | Solution method | Nanoparticles | CTAB, TC12AB | N2H4 | 40.0 | – | [31] |
Ni | Solution method | Nanocones | – | N2H4 | 213.7 | – | [54] |
Ni | Solvothermal method | Flower-like nanostructures | – | PP | 170.0 | – | [55] |
Ni | Solution method | Micro-flowers | EDA | N2H4 | 130.0 | – | [56] |
Ni | Solvothermal method | Hollow nanospheres | SDS | NaH2PO2 | 102.0 | – | [57] |
Ni | Solution method | Hollow submicro-spheres | – | NaH2PO2 | – | −28.8 | [29] |
Ni | Solvothermal method | Submicro-spheres | PEG | – | 282.6 | −17.9 | Our work |
Ni | Electrodeposition | Branched nanowire | AAO | H3BO4 | 380.0 | −19.0 | [21] |
Ni | Solvothermal method | Nanowire | – | Benzyl alcohol | 186.2 | – | [58] |
Ni-B | Solution method | Nanoparticles | OA | KBH4 | 129.8 | – | [59] |
Ni-Pt | Solvothermal method | Hollow nanospheres | ET/EN | NaBH4 | 255 | – | [35] |
Ni-Cu | Electrochemical corrosion | Nanoparticle chains | AAO | H3BO3 | – | – | [17] |
Ni-NiO | Solvothermal method | Nanoparticles | TOPO, TOP | Oleylamine | – | – | [13] |