12645-50-0

Usage

Uses

Used in Ceramics Industry:
NICKEL ZINC IRON OXIDE NANOPOWDER 99+% is used as a raw material for the production of advanced ceramics. Its high chemical stability and unique properties contribute to the development of ceramics with improved mechanical, thermal, and electrical properties.
Used in Electronics Industry:
In the electronics industry, NICKEL ZINC IRON OXIDE NANOPOWDER 99+% is used as a component in the manufacturing of electronic devices. Its magnetic susceptibility and nanoscale properties enable the creation of more efficient and compact electronic components.
Used in Catalysts Production:
NICKEL ZINC IRON OXIDE NANOPOWDER 99+% is used as a catalyst in various chemical reactions. Its high surface area to volume ratio allows for enhanced catalytic activity, making it an essential component in the production of catalysts for industrial processes.
Used in Research and Development:
NICKEL ZINC IRON OXIDE NANOPOWDER 99+% is used as a research material for studying the properties and applications of nanoscale materials. Its unique characteristics make it a valuable resource for scientists and researchers working on the development of new technologies and materials.

Upstream product

• 10196-18-6 zinc(II) nitrate 
• 7782-61-8 ferric nitrate 

Relevant academic research and scientific papers

A novel nanocomposite of polyaniline and Fe0.01Ni 0.01Zn0.98O: Photocatalytic, electrical and antibacterial properties

A novel composite of Fe0.01Ni0.01Zn0.98O nanoparticles (FNZPs) and conducting polymer polyaniline (PANI) was synthesized by in situ free radical polymerisation method. Iron/nickel co-doped zinc oxide nanoparticles (NPs) were synthesized by sol-gel technique. The NPs and Fe 0.01Ni0.01Zn0.98O/polyaniline nanocomposites (FNZP/PANI) were characterized by FTIR, EDX, SEM, HRTEM, SAED, UV-Vis and XRD techniques. Optical and photocatalytic studies revealed that formation of composite further lowers the optical band gap of FNZPs, leading to enhanced visible light absorption. Admirable photodegradation efficiency against methylene blue dye (MB) was achieved for composites. The electrical conductivity was also enhanced. The antibacterial activity of the synthesized NPs and nanocomposites (NCs) against Escherichia coli (E coli) bacteria was analyzed by optical density method.

A novel nanocomposite of polyaniline and Fe0.01Ni0.01Zn0.98O: Photocatalytic, electrical and antibacterial properties

A novel composite of Fe0.01Ni0.01Zn0.98O nanoparticles (FNZPs) and conducting polymer polyaniline (PANI) was synthesized by in situ free radical polymerisation method. Iron/nickel co-doped zinc oxide nanoparticles (NPs) were synthesized by sol-gel technique. The NPs and Fe0.01Ni0.01Zn0.98O/polyaniline nanocomposites (FNZP/PANI) were characterized by FTIR, EDX, SEM, HRTEM, SAED, UV-Vis and XRD techniques. Optical and photocatalytic studies revealed that formation of composite further lowers the optical band gap of FNZPs, leading to enhanced visible light absorption. Admirable photodegradation efficiency against methylene blue dye (MB) was achieved for composites. The electrical conductivity was also enhanced. The antibacterial activity of the synthesized NPs and nanocomposites (NCs) against Escherichia coli (E. coli) bacteria was analyzed by optical density method.