Tetrabenzyl Pyrophosphate (CAS 990-91-0) is a complex organic compound that holds significant value in chemical synthesis due to its specific chemical properties and versatile reactivity. Understanding these characteristics is key for researchers and manufacturers looking to leverage this compound effectively in their processes. As a specialized intermediate, its role extends beyond single applications, offering broader utility in organic chemistry.

Chemically, Tetrabenzyl Pyrophosphate is characterized by its molecular formula C28H28O7P2 and a molecular weight of approximately 538.465. Its structure features two pyrophosphate units esterified with benzyl groups, contributing to its reactivity as a phosphorylating agent. The compound typically presents as a white powder, with a specified melting point around 162°C, indicating its solid state under standard conditions. Key physical properties, such as density (1.289 g/cm³) and a high flash point (330.4°C), are important considerations for handling, storage, and safety protocols in industrial settings. Ensuring compliance with storage conditions, often recommended at -20°C in cool, dry, and well-closed containers, is vital for maintaining its integrity.

The primary synthesis application of Tetrabenzyl Pyrophosphate lies in its efficacy as a phosphorylating agent. This function is critical in the production of numerous complex organic molecules. Its most prominent role is in the synthesis of Fosaprepitant, an antiemetic drug. The precise addition of phosphate groups is a fundamental step in creating the active pharmaceutical ingredient, and Tetrabenzyl Pyrophosphate excels in this role, facilitating efficient and targeted phosphorylation. This makes it an indispensable component for manufacturers in the pharmaceutical sector who need to produce this specific API or similar compounds.

Beyond pharmaceuticals, the compound's ability to introduce phosphate functionalities makes it a valuable tool in broader organic synthesis research and development. Chemical manufacturers can employ Tetrabenzyl Pyrophosphate to create novel compounds with specific biological or material properties. Its utility in facilitating phosphorylation processes opens doors for innovation in areas such as agrochemicals, specialty polymers, and advanced materials, provided appropriate research and validation are conducted. For those seeking to buy this compound for such diverse applications, securing it from a reliable manufacturer ensures consistent chemical properties and performance.

The availability of high-purity Tetrabenzyl Pyrophosphate from trusted chemical suppliers in China is essential for researchers and industrial chemists. By understanding its chemical properties and synthesis applications, potential buyers can better appreciate its value and integrate it effectively into their chemical development pipelines. Whether for established pharmaceutical routes or experimental organic synthesis, Tetrabenzyl Pyrophosphate remains a compound of significant industrial importance.