Mechanical activation on aluminothermic reduction and magnetic properties of NiO powders

Abstract: We report the mechanically activated aluminothermic reduction of NiO [NiO-Al(x wt.%) with x = 0, 20, 40] into NiO-Ni-Al 2 O 3 nanocomposites using high-energy planetary ball milling under dry milling and the resulting structural and magnetic properties. Structural studies reveal that both NiO and NiO-Al powders exhibit a face centered cubic structure with large crystal size reduction. However, the NiO-Al milled powders unveil the process of aluminothermic reaction kinetics, which changes from gradual reaction … Show more

“…Also, the peaks were shied when milling for up to 5 h, signifying the presence of atomic disorder and accumulated strain during the material synthesis. 29 However, for t mill ¼ 10 h, signicant intense peaks of TiO 2 and Ni could be observed at the expense of the NiO peaks, indicating the considerable reduction of NiO. This resulted in the formation of in situ NiO-Ni-TiO 2 nanocomposites.…”

NiO–Ti nanocomposites for contact electrification and energy harvesting: experimental and DFT+U studies

“…Also, the peaks were shied when milling for up to 5 h, signifying the presence of atomic disorder and accumulated strain during the material synthesis. 29 However, for t mill ¼ 10 h, signicant intense peaks of TiO 2 and Ni could be observed at the expense of the NiO peaks, indicating the considerable reduction of NiO. This resulted in the formation of in situ NiO-Ni-TiO 2 nanocomposites.…”

NiO–Ti nanocomposites for contact electrification and energy harvesting: experimental and DFT+U studies

Thickness-Dependent Thermal Oxidation of Ni into NiO Thin Films

Investigation of NiO reduction dynamics and properties of NiO-Ti powders