Phenol Red Sodium Salt, known by its CAS number 34487-61-1, is a chemical compound that offers significant value beyond its well-known application as a pH indicator. In the realm of organic synthesis, it serves as a critical intermediate, providing chemists with a versatile building block for creating more complex and specialized molecules. Understanding its role in synthesis pathways can unlock new possibilities for product development and chemical innovation.

As an intermediate for organic synthesis, Phenol Red Sodium Salt possesses reactive sites that allow it to be modified and incorporated into larger molecular structures. Its phenolic hydroxyl groups and sulfonate group provide points of attachment and influence the compound's reactivity. This makes it a useful starting material or reagent in multistep syntheses, particularly in the creation of dyes, indicators, and potentially pharmaceutical precursors. When you need to buy Phenol Red Sodium Salt for synthesis, ensuring its purity is paramount, which is why sourcing from reputable manufacturers in China is often preferred.

The versatility of Phenol Red Sodium Salt in organic synthesis is a testament to its well-defined chemical properties. It can undergo various reactions such as etherification, esterification, and coupling reactions, depending on the specific reagents and conditions employed. These transformations are fundamental to building complex organic molecules with desired functionalities. Many research institutions and chemical companies rely on this compound as a dependable intermediate to push the boundaries of chemical discovery.

The practical application of Phenol Red Sodium Salt in organic synthesis is often seen in the development of new colorants or functional materials where its chromophoric properties can be exploited. Researchers may use it to synthesize novel indicators with altered pH transition ranges or enhanced photophysical properties. The ability to reliably source this chemical reagent contributes to the efficiency and reproducibility of these synthetic efforts.

Moreover, the availability of Phenol Red Sodium Salt from chemical supplier partners in China ensures that research and development pipelines remain robust. Access to high-quality intermediates at competitive prices is crucial for advancing chemical synthesis methodologies and bringing new products to market. Whether for academic research or industrial production, this compound remains a valuable asset in the synthetic chemist's toolkit.

In conclusion, while Phenol Red Sodium Salt is celebrated for its pH indicative capabilities, its significance as an intermediate for organic synthesis should not be overlooked. Its chemical reactivity and structural features make it a key component in the creation of a wide array of chemical products. For those involved in chemical synthesis, sourcing this compound from reliable sources is a strategic step towards achieving successful and innovative outcomes.