Tetrakis(4-aminophenyl)ethene, identified by CAS number 78525-34-5, is a fascinating organic compound whose unique molecular architecture dictates its diverse and valuable applications. Understanding its chemistry is fundamental for researchers and manufacturers aiming to leverage its potential in fields ranging from advanced materials to pharmaceuticals.

At its core, the molecule features a central ethene (double bond) unit that is substituted by four phenyl rings. Each phenyl ring, in turn, is functionalized with an amine (-NH2) group at the para position. This arrangement results in a highly symmetrical molecule with a relatively large, planar core and four outward-facing amine functionalities. The molecular formula is C26H24N4, and its molar mass is approximately 392.50 g/mol. The presence of the electron-rich amine groups and the conjugated pi-system of the ethene and phenyl rings contribute significantly to its chemical reactivity and physical properties.

The chemical properties of Tetrakis(4-aminophenyl)ethene are largely defined by its amine groups. These nucleophilic sites readily participate in various organic reactions, making it an excellent intermediate for further synthesis. As a primary amine, it can undergo reactions such as acylation, alkylation, diazotization, and Schiff base formation, enabling the construction of more complex molecular structures. This reactivity is precisely why it is sought after as a building block for polymers, pharmaceuticals, and especially Covalent Organic Frameworks (COFs).

Physically, Tetrakis(4-aminophenyl)ethene is typically described as a brown or red powder, with a predicted density around 1.247 g/cm³ and a high boiling point (around 634.8°C). Its solubility characteristics are typical of polyaromatic amines, generally showing limited solubility in water but better solubility in certain organic solvents. The compound's potential as a luminophore and its pH-sensitive nature are also important properties that drive its use in specialized sensing applications.

For those looking to buy Tetrakis(4-aminophenyl)ethene, understanding these chemical and physical attributes is crucial. As a dedicated supplier, we ensure that the Tetrakis(4-aminophenyl)ethene we provide meets high standards of purity, thereby optimizing its performance in all its intended applications. Whether for intricate organic synthesis, the creation of novel COFs, or as a pharmaceutical intermediate, this compound’s robust chemistry makes it an invaluable asset.