Introduction Iridium Trichloride (IrCl₃ , CAS: 10025-83-9 ) , also known as Iridium(III) Chloride , is a compound derived from the precious metal iridium. Although iridium is one of the rarest elements on Earth, its compounds—particularly IrCl₃—have become indispensable materials in modern high-tech industries . From catalysis and electronic manufacturing to renewable energy systems , IrCl₃ plays a quiet yet critical role in the foundations of modern technology. Iridium Trichloride in Modern Industry 1. Catalyst Precursor for Precision Chemistry In the chemical industry, IrCl₃ serves as a vital precursor for iridium-based catalysts . These catalysts exhibit exceptional stability, selectivity, and efficiency under harsh reaction conditions, making them ideal for: Hydrogenation and oxidation reactions C–H activation in fine chemical synthesis Pharmaceutical and specialty chemical production Because of these properties, iridium catalysts derived ...
Iridium Trichloride ( IrCl₃ , CAS:10025-83-9 ) , also known as Iridium(III) Chloride or IrCl₃ , is a dark brown to black crystalline solid that plays a vital role in inorganic chemistry and catalysis. It is a highly stable iridium compound known for its ability to form numerous coordination complexes and serve as a key precursor in iridium-based catalysts and materials. Because of its thermal stability , chemical inertness , and versatile reactivity , Iridium Trichloride is widely used in industrial catalysis , materials science , and electrochemical research . Chemica Chemical formula IrCl₃ Iridium Trichloride often exists in anhydrous or hydrated forms (IrCl₃·xH₂O). In hydrated forms, iridium is surrounded by a mix of chloride and water ligands, making it highly reactive for complex formation. Key Applications of Iridium Trichloride 1. Catalyst Precursor IrCl₃ is one of the most important starting materials for iridium catalysts . It...