Iron Fluoride Micro Powder (FeF₃, purity; >99.9%, APS: 30-45 µm)
Iron Fluoride Micro Powder | |
Product No | NRE-29013 |
CAS No. | 7783-50-8 |
Formula | FeF3 |
APS | <40 µm (Can be Customized) |
Purity | 99.9% |
Color | Pale Green Crystalline |
Molecular Weight | 112.840 g/mol |
Density | 3.87 g/cm³ |
Melting Point | 1000 °C |
Boiling Point | NA |
Iron Fluoride Micro Powder
Iron fluoride (FeF₃) micro powder is a fine particulate form of iron fluoride, a chemical compound that consists of iron in its +3 oxidation state (Fe³⁺) bonded to fluoride ions (F⁻). This micro powder is typically produced by methods like precipitation, sol-gel synthesis, or chemical vapor deposition, which yield small particles with sizes ranging from micrometers to nanoscale.
Applications
Energy Storage and Batteries:
Li-ion and Li–FeF₃ batteries: Iron fluoride micro powder has been explored for use in lithium-ion batteries (Li-ion), where it can act as a cathode material. Due to its ability to undergo reversible electrochemical reactions, FeF₃ is being studied as a potential material to improve the energy density, stability, and cycle life of lithium batteries.
Sodium-ion batteries: FeF₃ is also being investigated for use in sodium-ion batteries, an alternative to lithium-ion technology. Its high thermal stability and electrochemical properties make it a potential candidate for use in these energy storage systems.
Supercapacitors: The ionic conductivity and electrochemical properties of FeF₃ micro powder make it an attractive material for use in supercapacitors, where it can help improve the energy storage and efficiency of these devices.
Catalysis:
Fluorination agent: FeF₃ is a strong fluorinating agent and is used in chemical reactions where fluoride needs to be introduced into organic compounds or inorganic materials. This makes it valuable in the production of fluorinated organic chemicals, pharmaceuticals, agrochemicals, and specialty materials.
Catalytic processes: Iron fluoride micro powder can be used as a catalyst or catalyst support in various industrial processes, including the production of fine chemicals, polymers, and other materials that require the introduction of fluorine into their structure.
Environmental catalysis: Iron fluoride-based materials are being researched for use in catalytic systems that can break down pollutants or help in the removal of harmful substances from industrial emissions.