12005-88-8 | Iron arsenide (Fe2As)

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Description

• Catalog Number: AA33772
• Chemical Name: Iron arsenide (Fe2As)
• CAS Number: 12005-88-8
• Molecular Formula: AsFe2
• Molecular Weight: 186.6116
• MDL Number: MFCD00151533
• SMILES: [Fe]=[As].[Fe]

Upstream Synthesis Route

Iron arsenide (Fe2As) is a compound that finds crucial application in chemical synthesis particularly in the field of catalysis. As a versatile catalyst, Fe2As demonstrates remarkable activity and selectivity in a wide range of chemical reactions, making it an indispensable tool in synthetic chemistry. Its unique properties enable it to facilitate various bond-forming processes, including cross-coupling reactions, C-H activation, and asymmetric transformations.One of the key advantages of using Iron arsenide as a catalyst lies in its ability to mediate challenging transformations with high efficiency and control. Its catalytic activity can be finely tuned through ligand modification and reaction conditions, allowing for the selective synthesis of complex molecules with high yields. Additionally, Fe2As exhibits excellent stability under a variety of reaction conditions, enabling its robust performance in both traditional organic solvents and environmentally friendly alternatives.Furthermore, the use of Iron arsenide in chemical synthesis offers a greener and more sustainable approach to producing valuable compounds. By promoting atom-economy and minimizing waste generation, Fe2As contributes to the development of more environmentally benign synthetic methods. Its compatibility with renewable feedstocks and mild reaction conditions further underscores its potential as a catalyst of choice for sustainable chemical transformations.In summary, Iron arsenide (Fe2As) stands out as a versatile and efficient catalyst in chemical synthesis, offering a powerful tool for the construction of complex molecules with high selectivity and sustainability. Its wide-ranging applications and compatibility with diverse reaction pathways make it a valuable asset for researchers and practitioners seeking to advance the frontiers of synthetic chemistry.