Ammoniumhexachloroiridate(IV) CAS:16940-92-4
Catalog Number | XD95581 |
Product Name | Ammoniumhexachloroiridate(IV) |
CAS | 16940-92-4 |
Molecular Formula | Cl6H4IrN- |
Molecular Weight | 422.96 |
Storage Details | Ambient |
Product Specification
Appearance | White powder |
Assay | 99% min |
Ammoniumhexachloroiridate(IV), also known as (NH4)2IrCl6, is a compound containing the transition metal iridium. This complex salt possesses several effects and applications, which we will explore below.One significant effect of Ammoniumhexachloroiridate(IV) is its use as a starting material for the synthesis of various iridium complexes. By reacting (NH4)2IrCl6 with different ligands or organic molecules, new coordination compounds can be formed. These complexes may have diverse geometries, electronic properties, and reactivities, making them valuable in fields such as catalysis, materials science, and electrochemistry.Ammoniumhexachloroiridate(IV) finds application in catalytic reactions. Iridium-based catalysts are known for their efficiency and selectivity in various organic transformations. (NH4)2IrCl6 can be used as a precursor for the synthesis of iridium catalysts that find applications in processes such as hydrogenation, oxidation, and carbon-hydrogen bond activation. These reactions are essential in the production of pharmaceuticals, fine chemicals, and other industrial products.Another significant effect of Ammoniumhexachloroiridate(IV) is its involvement in the field of electrochemistry. Iridium complexes derived from (NH4)2IrCl6 exhibit excellent electrochemical properties, including stability and catalytic activity. These complexes can be utilized as electrode materials in fuel cells and electrolytic cells, where they play a crucial role in energy conversion and storage. The high catalytic activity of iridium complexes enables more efficient and sustainable electrochemical processes.Ammoniumhexachloroiridate(IV) also shows potential in the field of optical devices. Iridium complexes derived from (NH4)2IrCl6 exhibit luminescent properties, making them suitable for applications such as OLEDs (organic light-emitting diodes) and phosphorescent materials. These complexes can emit light in the visible spectrum, making them valuable in the display industry, lighting technologies, and optoelectronic devices.In conclusion, Ammoniumhexachloroiridate(IV), by serving as a precursor for the synthesis of iridium complexes, contributing to catalytic reactions, playing a role in electrochemical processes, and showing potential in optical applications, demonstrates its versatility and significance in various scientific fields. Further research and exploration in this area can lead to advancements in catalysis, electrochemistry, and optoelectronics involving iridium-based compounds.