Tetrabenzyl pyrophosphate, identified by CAS number 990-91-0, is a significant compound in the realm of organic chemistry, primarily recognized for its utility as an organic synthesis intermediate. Its detailed chemical profile, encompassing physical properties and application insights, makes it a valuable resource for researchers and manufacturers alike.

Physically, Tetrabenzyl pyrophosphate is described as a white powder. This visual characteristic, along with its specified melting point range of 63-66 °C, provides essential data for quality control and reaction planning. Its density is recorded at approximately 1.289±0.06 g/cm³, offering further physical characterization. These attributes are crucial for handling and utilizing this chemical reagent effectively in various laboratory and industrial settings.

The primary application for Tetrabenzyl pyrophosphate is its involvement in the synthesis of anti-tumor products. This makes it a critical component in the pharmaceutical industry, particularly in the research and development of new cancer therapies. The precise molecular structure and reactivity of this benzyl pyrophosphate derivative enable chemists to construct complex organic molecules that can serve as active pharmaceutical ingredients. The success in the synthesis of anti-tumor products often hinges on the quality of such intermediates.

For professionals seeking to utilize Tetrabenzyl pyrophosphate, understanding its role as a chemical reagent is key. Whether for academic research or commercial production, acquiring this intermediate with a high assay percentage (e.g., 99%) ensures consistent and reliable outcomes. The compound's CAS number, 990-91-0, serves as a universal identifier, facilitating easy sourcing and communication within the scientific community. Many professionals search for terms like 'Tetrabenzyl pyrophosphate chemical profile' or 'buy Tetrabenzyl pyrophosphate online'.

Proper storage is also an important aspect of maintaining the chemical integrity of Tetrabenzyl pyrophosphate. It is typically stored under conditions that prevent degradation, such as in a low-temperature, dry environment, with containers kept tightly sealed. This practice is standard for many sensitive organic synthesis intermediates and is vital for ensuring the compound's effectiveness in subsequent reactions.

In conclusion, Tetrabenzyl pyrophosphate is more than just a chemical compound; it is a vital tool for scientific advancement. Its well-defined properties, coupled with its critical role in the synthesis of anti-tumor products and its broad utility as a chemical reagent, underscore its importance in modern organic chemistry and pharmaceutical research.