Understanding the molecular architecture of chemical compounds is fundamental to unlocking their potential applications. 2,3'',4'',5''-tetrafluoro-4-propyl-1,1':4',1''-terphenyl, with the CAS number 205806-88-8, is a prime example of a sophisticated organic molecule designed for specific high-value applications, particularly within the realm of pharmaceutical and electronic materials. NINGBO INNO PHARMCHEM CO.,LTD. specializes in producing such precisely engineered compounds.

The nomenclature itself provides clues to its structure: 'terphenyl' indicates a molecule composed of three phenyl rings linked together. The specific linkage '1,1':4',1''' denotes a para-para-para arrangement of these rings, forming a linear, rigid backbone. The '2,3'',4'',5''-tetrafluoro' prefix signifies that four fluorine atoms are strategically placed on the second and third rings of this terphenyl unit. Finally, the '4-propyl' group is attached to the terminal phenyl ring. This combination of a terphenyl core, heavy fluorination, and an alkyl chain results in a molecule with unique electronic properties and solubility characteristics.

The chemical formula for this compound is C21H16F4, and its molecular weight is approximately 344.35 g/mol. These details are crucial for stoichiometric calculations in synthesis and for understanding its behavior in different chemical environments. As a high purity fluorinated terphenyl intermediate, its potential applications are vast. The presence of fluorine can influence electron density, thermal stability, and intermolecular interactions, making it suitable for use in advanced materials, liquid crystals, or as a key intermediate in the synthesis of complex APIs where specific electronic or steric properties are required.

NINGBO INNO PHARMCHEM CO.,LTD. is dedicated to providing researchers and manufacturers with detailed information and high-quality products like 2,3'',4'',5''-tetrafluoro-4-propyl-1,1':4',1''-terphenyl. By offering compounds with well-defined structures and purities, we aim to support innovation in areas such as advanced materials science and drug development. The careful arrangement of atoms in this molecule underscores the precision involved in modern chemical synthesis and the critical role such intermediates play in technological advancements.