Template-free synthesis and characterization of dendritic cobalt microstructures by hydrazine reduction route

“…The measured saturation magnetization ( M s ) and coercivity ( H C ), are 31.3 emu g −1 and 408.9 Oe, respectively. The smaller M s value of CoNPs–G nanocomposite compared to bulk Co (168 emu g −1 , 298.15 K) 54 is mainly ascribed to the existence of graphene. On the other hand, CoNPs–G nanocomposite also shows greater coercivity (408.9 Oe) than bulk cobalt (10 Oe, 298.15 K).…”

A facile synthesis of a cobalt nanoparticle–graphene nanocomposite with high-performance and triple-band electromagnetic wave absorption properties

“…The measured saturation magnetization ( M s ) and coercivity ( H C ), are 31.3 emu g −1 and 408.9 Oe, respectively. The smaller M s value of CoNPs–G nanocomposite compared to bulk Co (168 emu g −1 , 298.15 K) 54 is mainly ascribed to the existence of graphene. On the other hand, CoNPs–G nanocomposite also shows greater coercivity (408.9 Oe) than bulk cobalt (10 Oe, 298.15 K).…”

A facile synthesis of a cobalt nanoparticle–graphene nanocomposite with high-performance and triple-band electromagnetic wave absorption properties

Preparation of hierarchical cobalt dendritic flowers via a simple solvothermal approach

Preparation and thermal stability of nickel nanowires via self-assembly process under magnetic field