Ethyl Thiooxamate (CAS 16982-21-1): A Versatile Intermediate in Organic Synthesis and Pharmaceutical Development
Discover the utility of a key organic intermediate, crucial for advanced chemical synthesis and pharmaceutical innovation.
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Ethyl Thiooxamate
Ethyl Thiooxamate, identified by CAS number 16982-21-1, is a pivotal organic compound recognized for its utility in a wide array of chemical transformations. Its primary value lies in its role as a building block for synthesizing complex molecules, most notably functionalized bithiazoles. These derived compounds are of significant interest due to their unique properties and potential applications in various high-value sectors, including the pharmaceutical industry, where they can form the basis of novel therapeutic agents. As a versatile organic synthesis intermediate, it empowers chemists to create intricate molecular structures with precision and efficiency.
- Explore the crucial role of ethyl thiooxamate uses in developing advanced chemical compounds for diverse industrial applications.
- Learn about the cas 16982-21-1 chemical properties, including its physical characteristics and reactivity, essential for R&D.
- Understand how this compound serves as a vital pharmaceutical intermediate chemical, contributing to the creation of new drug candidates.
- Investigate the applications of thiooxamic acid ethyl ester applications in cutting-edge research and development, pushing the boundaries of chemical innovation.
Key Advantages
Versatile Synthetic Utility
Leverage the synthetic capabilities of ethyl thiooxamate synthesis to create diverse molecular architectures, opening doors to new material and drug discoveries.
Pharmaceutical Impact
As a crucial pharmaceutical intermediate chemical, it plays a significant role in the drug discovery pipeline, aiding in the development of novel therapeutic compounds.
Research & Development Fuel
This compound is indispensable for chemical research, providing a reliable starting point for exploring new reactions and creating innovative chemical entities.
Key Applications
Organic Synthesis
As a fundamental organic synthesis intermediate, it enables the construction of complex organic molecules, essential for advanced chemical research.
Pharmaceutical Development
Its use as a pharmaceutical intermediate chemical is critical for drug discovery, facilitating the synthesis of potential new medications.
Bithiazole Synthesis
The compound is instrumental in the synthesis of functionalized bithiazoles, a class of compounds with significant industrial and pharmacological relevance.
Chemical Research Reagents
In laboratories, cas 16982-21-1 chemical properties are studied for potential novel applications, making it a valuable reagent for scientific exploration.