2-Benzoxazolinone: A Versatile Chemical Intermediate for Agriculture and Pharmaceuticals
Discover the crucial role of 2-Benzoxazolinone in driving innovation in agrochemicals and pharmaceuticals.
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2-Benzoxazolinone
2-Benzoxazolinone, identified by CAS 59-49-4, is a vital compound in the fine chemicals sector. Its unique properties make it an indispensable intermediate for synthesizing critical agrochemicals, such as Phosalone and Fenoxiapro-P-Ethyl, contributing significantly to crop protection strategies. Beyond agriculture, its potential applications in the pharmaceutical industry are also being explored, highlighting its versatility and importance in chemical synthesis.
- Leveraging 2-benzoxazolinone intermediate for pesticides, manufacturers can ensure the effective control of agricultural pests.
- Understanding what 2-benzoxazolinone is used for reveals its broad utility as a chemical building block.
- The chemical properties of 2-benzoxazolinone, including its melting point of 137-139°C, ensure its stability in various chemical processes.
- Exploring applications of 2-benzoxazolinone in pharmaceuticals opens new avenues for drug discovery and development.
Key Advantages Offered
Synthesis Versatility
As a key intermediate in chemical synthesis, 2-benzoxazolinone facilitates the creation of complex molecules for various industries.
Agricultural Efficacy
Its role as an agrochemical intermediate supports the development of advanced pest management solutions.
Pharmaceutical Potential
The exploration of applications of 2-benzoxazolinone in pharmaceuticals showcases its promise in healthcare advancements.
Key Applications
Agrochemical Production
Crucial for the synthesis of pesticides, aiding in effective crop protection through reliable 2-benzoxazolinone supplier China sourced materials.
Pharmaceutical Intermediates
Investigating its potential in drug development pathways, contributing to novel therapeutic solutions.
Fine Chemical Synthesis
Serves as a foundational component in various organic synthesis processes, highlighting its importance in creating specialized chemicals.
Research and Development
Used in laboratories to explore new chemical reactions and develop novel compounds, supporting innovation in chemical science.