For professionals in the chemical and pharmaceutical industries, understanding the detailed profile of specific compounds is fundamental. 4-Fluoro-alpha-(2-methyl-1-oxopropyl)-gamma-oxo-N,beta-diphenylbenzene butaneamide, readily identifiable by its CAS number 125971-96-2, is one such compound. Its chemical structure, represented by the formula C26H24FNO3, and a molecular weight of 417.47 g/mol, places it firmly within the realm of complex organic molecules used in specialized applications.

This compound is recognized for its role as a key intermediate in the synthesis of Atorvastatin, a statin drug that has revolutionized cholesterol management. The precise arrangement of atoms and functional groups within its molecular structure is critical for its reactivity and its ability to facilitate specific transformations in organic synthesis. Researchers and process chemists rely on this detailed information to design and execute complex synthetic pathways effectively. The presence of a fluorine atom, a phenyl group, and amide linkages are notable features that contribute to its chemical behavior.

The physical characteristics, such as its typical white powder appearance, are important for identification and handling. However, a comprehensive understanding extends to its solubility in various solvents, melting point, and spectroscopic data, which are typically detailed in technical datasheets. For those seeking to source this chemical, knowing the various synonyms, such as M-4 or Atorvastatin Impurity 68, can be helpful when searching for reliable 4-Fluoro-alpha-(2-methyl-1-oxopropyl)-gamma-oxo-N,beta-diphenylbenzene butaneamide suppliers. This extensive chemical information ensures that researchers and manufacturers can confidently utilize this intermediate in their demanding applications.

In essence, 4-Fluoro-alpha-(2-methyl-1-oxopropyl)-gamma-oxo-N,beta-diphenylbenzene butaneamide exemplifies the intricate nature of chemical intermediates. Its specific chemical profile makes it indispensable for the production of vital pharmaceuticals, underscoring the importance of detailed chemical knowledge in driving scientific and industrial progress.