From a chemical standpoint, Tetrakis(3-formaldehydebiphenyl)ethylene (CAS 2351847-81-7) represents a sophisticated organic molecule with significant potential, particularly in the realm of materials science. Ningbo Inno Pharmchem Co., Ltd. is pleased to offer this compound, understanding its critical role as a precursor for high-performance materials. Its molecular structure, C54H36O4, and molecular weight of 748.88 g/mol, hint at its complexity and the advanced synthesis required to produce it.

The synthesis of Tetrakis(3-formaldehydebiphenyl)ethylene typically involves multi-step organic reactions, ensuring the precise placement of functional groups on a rigid biphenyl ethylene scaffold. The presence of four aldehyde functionalities makes it an ideal monomer for creating extended network structures, such as Covalent Organic Frameworks (COFs) and Metal-Organic Frameworks (MOFs). These frameworks are constructed through covalent or coordination bonds, respectively, leading to highly ordered porous materials with exceptional surface areas and tunable properties.

The applications stemming from these framework materials are diverse and impactful. In gas storage, MOFs and COFs synthesized using intermediates like Tetrakis(3-formaldehydebiphenyl)ethylene can selectively adsorb and store gases such as hydrogen, methane, or carbon dioxide. In catalysis, their high surface area and accessible active sites make them excellent supports for catalytic nanoparticles or as catalysts themselves. Furthermore, their unique pore structures are being explored for molecular separation, sensing, and even drug delivery systems. The formaldehyde biphenyl ethylene unit provides the necessary architectural elements for these advanced functionalities.

Ningbo Inno Pharmchem Co., Ltd. is committed to providing the chemical community with reliable access to high-quality precursors. Our Tetrakis(3-formaldehydebiphenyl)ethylene is produced under stringent quality control measures to ensure its suitability for these demanding applications. By supplying this vital building block, we contribute to the ongoing research and development of novel materials that address critical challenges in energy, environment, and technology. The precise chemistry of Tetrakis(3-formaldehydebiphenyl)ethylene is the foundation for these exciting material advancements.