In the dynamic field of organic chemistry, specialized intermediates are the bedrock upon which groundbreaking discoveries are built. Among these essential compounds, Tetrabenzyl pyrophosphate stands out for its significant contributions, particularly in the realm of pharmaceutical development. With its unique chemical structure and properties, this compound, identified by CAS number 990-91-0, has become a go-to material for researchers and manufacturers aiming to synthesize complex molecules.

The primary application driving the demand for Tetrabenzyl pyrophosphate is its role in the synthesis of anti-tumor products. The development of novel cancer therapies often requires precise chemical building blocks, and Tetrabenzyl pyrophosphate offers a reliable starting point. Its structure allows for specific modifications and integrations into larger molecular frameworks, which are critical for creating effective anti-tumor agents. Understanding the synthesis of anti-tumor products often involves delving into the capabilities of intermediates like this.

Beyond its anti-tumor applications, Tetrabenzyl pyrophosphate serves as a versatile chemical reagent in broader organic synthesis. Its well-defined characteristics, such as its white powder appearance and a melting point typically ranging from 63-66 °C, provide chemists with consistent and predictable results. This consistency is paramount when trying to achieve high purity in the final product, whether it's for pharmaceutical research or other fine chemical applications. Researchers often seek out such reliable building blocks to streamline their synthetic pathways.

The chemical industry relies heavily on accurate identification and sourcing of materials. The CAS 990-91-0 number associated with Tetrabenzyl pyrophosphate ensures that manufacturers and researchers can precisely identify and acquire the correct compound, avoiding errors in procurement and laboratory work. When looking to buy Tetrabenzyl pyrophosphate, confirming this CAS number is a crucial first step for ensuring quality and compliance. The price and availability can vary, making it essential to work with reputable suppliers.

Furthermore, proper storage conditions are vital for maintaining the integrity of Tetrabenzyl pyrophosphate. It is typically stored in a cool, dry place, often at temperatures below -15°C, with containers kept tightly closed to prevent degradation. This careful handling ensures that the compound remains effective for its intended uses, whether it's for laboratory research or large-scale manufacturing. The meticulous approach to storing chemical reagents underscores their sensitive nature and the importance of preserving their reactive potential.

In conclusion, Tetrabenzyl pyrophosphate is an indispensable compound in the modern chemical landscape. Its utility in the synthesis of anti-tumor products, its reliability as a chemical reagent, and its precise identification through its CAS number all contribute to its value. As research in pharmaceuticals and organic synthesis continues to advance, the demand for high-quality intermediates like Tetrabenzyl pyrophosphate will undoubtedly persist, fueling further innovation.