Ammonium Sebacate, a compound with the CAS number 19402-63-2, plays a significant role in the development and application of advanced materials, particularly within the electronics sector. As a white crystalline powder with the chemical formula C10H24N2O4 and a molecular weight of 236.31, its properties are leveraged to enhance the performance of electronic components. The primary application identified is its use as a crucial ingredient in capacitor electrolytes, contributing to improved dielectric properties and overall device efficiency. The demand for high-purity chemicals like Ammonium Sebacate is driven by the continuous innovation in energy storage and electronic device miniaturization.

Sourcing this vital material often leads companies to explore options to buy Ammonium Sebacate online, with manufacturers in China being a significant part of the global supply chain. When seeking 'capacitor grade' Ammonium Sebacate, businesses must prioritize suppliers who demonstrate a rigorous commitment to quality control and product consistency. Understanding the precise specifications and purity levels offered by different Ammonium Sebacate manufacturers is essential for ensuring the reliability of the final product. Ningbo Inno Pharmchem Co., Ltd. is dedicated to providing high-quality Ammonium Sebacate to meet these exacting industry standards.

Beyond its established role in capacitors, the exploration of broader CAS 19402-63-2 chemical uses within advanced materials science is an area of growing interest. As a versatile organic salt, it may find applications in other fields requiring specific chemical properties, such as specialized coatings, functional polymers, or as an intermediate in the synthesis of novel materials. The ongoing research into new applications underscores the importance of a consistent and reliable supply of this fine chemical.

By understanding the chemical profile and established applications of Ammonium Sebacate, industries can better integrate this compound into their material development strategies. Its contribution to advanced electronics highlights its importance, and further research may unlock even more potential for this versatile chemical.