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Table 1 The performance of Ni-based nanomaterials

From: Surfactant-assisted solvothermal synthesis of pure nickel submicron spheres with microwave-absorbing properties

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]