For professionals in chemical research and development, a thorough understanding of a compound's properties is fundamental to its effective application. 4,4'-Dinitrodiphenyl Ether, bearing the CAS number 101-63-3, is a compound that warrants close examination due to its utility in specialized chemical sectors, notably as an intermediate in the synthesis of electronic chemicals and other fine chemicals.

Chemically, 4,4'-Dinitrodiphenyl Ether is characterized by its molecular formula, C12H8N2O5, and a molecular weight of approximately 260.21 g/mol. Its structure, featuring a diphenyl ether backbone substituted with two nitro groups at the para positions, imparts specific reactivity. While detailed physical properties like precise melting and boiling points are often specific to purity grades, it is generally supplied as a white to yellow powder. Its solubility characteristics in various solvents are also important considerations for researchers when planning synthesis or formulation work.

The significance of CAS 101-63-3 in applications such as photoresist formulation highlights the need for high purity. Impurities can adversely affect lithographic performance, leading to issues in pattern fidelity and device yield. Therefore, when seeking to purchase this chemical, it is imperative to partner with a reliable manufacturer or supplier that guarantees stringent quality control and provides comprehensive analytical data. Sourcing from China offers access to competitive pricing, but due diligence is crucial.

R&D scientists often look for key intermediates that offer versatility in synthetic pathways. The nitro groups on 4,4'-Dinitrodiphenyl Ether can be readily reduced to amino groups, opening avenues for further derivatization and the creation of complex molecules. This makes it a valuable starting material for developing novel materials with tailored properties.

In conclusion, a deep understanding of the chemical properties of 4,4'-Dinitrodiphenyl Ether is essential for chemists aiming to leverage its potential. By carefully selecting a qualified supplier, you ensure access to a high-quality intermediate that can drive innovation in electronic materials and other advanced chemical applications.