Zinc ferrite is aeneous powder, which is a kind of soft magnetic materials, but also representative oxidative dehydrogenation catalyst for alkene organic compounds.
ZnFe2O4 is a unique magnetic material with remarkable stability, chemical resistance, and electronic properties, making it valuable component across various indsutries. With applications in catalysis, magnetic devices, sensors, and environmental technologies, ZnFe2O4 is instrumental in advancing solutions for energy efficiency, pollution control, and electronic innovation.
Zinc Ferrite
| CAS No.: 12063-19-3 | EINECS No.: 235-052-5 | Molecular Formula:ZnFe2O4 | Molecular Weight: 241.08 |
| Purity | Size | Morphology | SSA | Ca | Co | Mn | Na | Si |
| 99.9% | 40nm | Spherical | 50 | <0.032% | <0.002% | <0.14% | <0.20% | <0.004% |
Applications
In catalysis, ZnFe2O4 acts as an effective photocatalyst and catalyst support, especially in environmental applications like water purification and pollutant degradation. Its ability to absorb light and drive chemical reactions makes it useful in photocatalytic processes that remove contaminants from water and air, contributing to cleaner environments. In addition, ZnFe2O4‘s catalytic properties are beneficial in hydrogen production, organic synthesis, and the decomposition of toxic substances, supporting advancements in green chemistry and sustainable technology.
Zinc ferrite is also crucial in the development of magnetic and electronic devices due to its ferrimagnetic properties. As a soft ferrite material, it is commonly used in the cores of inductors, transformers, and magnetic sensors, where it enhances the efficiency of electromagnetic components. Its stability under varying temperatures and chemical environments makes it suitable for use in both consumer electronics and industrial applications, providing reliable performance in challenging operational settings.
In energy storage and conversion, zinc ferrite is utilized in lithium-ion batteries and supercapacitors. Its electrochemical properties make it an effective anode material, enhancing the capacity and stability of batteries. Researchers are also exploring its potential in energy-efficient devices due to its semiconductor characteristics, which allow it to conduct and manage electrical energy efficiently.