2H-Benzo[b][1,4]thiazin-3(4H)-one: A Key Heterocyclic Building Block
Explore the essential properties and applications of this vital compound for your chemical synthesis needs.
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2H-Benzo[b][1,4]thiazin-3(4H)-one
This heterocyclic compound, known by CAS number 5325-20-2, is a crucial intermediate in various organic synthesis pathways. Its molecular structure and reactivity make it valuable for developing novel pharmaceutical agents and other fine chemicals. We offer this product with high purity, ensuring reliable results in your research and development.
- Discover the detailed chemical properties of 2H-Benzo[b][1,4]thiazin-3(4H)-one, including its molecular formula C8H7NOS and a molecular weight of 165.21.
- Learn about the melting point range of 176-178 °C, indicating its solid crystalline form.
- Understand the handling precautions due to its classification as an irritant, ensuring safe laboratory practices when working with this compound.
- Explore its role as a valuable building block for pharmaceutical intermediates in complex organic synthesis projects.
Advantages of Using This Compound
High Purity for Reliable Synthesis
With purity levels of 95% or higher, this compound ensures consistent and reproducible outcomes in your chemical synthesis, supporting the development of novel pharmaceutical intermediates.
Versatile Building Block
As a key heterocyclic building block, it facilitates the creation of complex molecular structures essential for drug discovery and advanced chemical research.
Safety and Handling Information
Clear guidance on its irritant properties, including relevant hazard and precautionary statements, ensures safe usage and management in any laboratory setting.
Key Applications
Pharmaceutical Intermediate Synthesis
Leverage this compound as a critical component in the synthesis of new pharmaceutical agents, contributing to advancements in healthcare and drug development.
Organic Chemistry Research
Utilize this heterocyclic compound for exploring new reaction pathways and developing innovative organic chemistry methodologies.
Fine Chemical Manufacturing
Its reliable quality makes it suitable for the manufacturing of fine chemicals, meeting the stringent demands of the industry.
Material Science Exploration
Investigate its potential in material science applications due to its unique heterocyclic structure and properties.