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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]

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