NINGBO INNO PHARMCHEM CO.,LTD. is dedicated to providing high-quality research chemicals, and Potassium Trimethylsilanolate, identified by CAS 10519-96-7, is a prime example of our commitment. This organosilicon compound is celebrated for its remarkable versatility, serving critical roles in various chemical processes and research endeavors.

Potassium Trimethylsilanolate is characterized by its solid form and a melting point typically between 134-138°C. Its chemical structure allows it to function effectively as a catalyst in numerous organic reactions. Notably, it has gained significant traction for its efficacy in Suzuki-Miyaura cross-coupling reactions, a fundamental tool for building complex organic molecules. Researchers often seek to buy Potassium Trimethylsilanolate to leverage these catalytic capabilities.

The compound's unique electronic profile, making it electron-rich, and its amphoteric nature (acting as both an acid and a base) further enhance its utility. These properties enable it to act as a Lewis acid or Lewis base, opening up avenues for diverse catalytic applications. Understanding the detailed potassium trimethylsilanolate properties is crucial for optimizing its use in synthetic pathways.

Moreover, Potassium Trimethylsilanolate is recognized for its role in stabilizing enzymes, a critical function in biochemical research. By helping to maintain enzyme structure and activity, it ensures the reliability and accuracy of experiments. This makes it a valuable addition to the laboratory repertoire for those working with biological catalysts.

For the scientific community, sourcing reliable chemicals is paramount. NINGBO INNO PHARMCHEM CO.,LTD. ensures that customers can easily access high-purity Potassium Trimethylsilanolate. Exploring the broad spectrum of potassium trimethylsilanolate uses reveals its significant impact on advancing scientific discovery and chemical innovation.

In summary, Potassium Trimethylsilanolate (CAS 10519-96-7) is more than just a chemical; it's a key enabler of progress in organic synthesis, catalysis, and biochemical research, underscoring the importance of specialized organosilicon compounds in modern science.