High-Purity 1,3-dibromo-2-chloro-5-methylbenzene: Chemical Intermediate Properties and Applications
Unlock advanced synthesis with a reliable chemical intermediate. Discover its properties and applications.
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1,3-dibromo-2-chloro-5-methylbenzene
This compound serves as a critical chemical intermediate in various synthetic pathways. Its precise molecular structure makes it an invaluable building block for complex organic molecules, offering a high degree of reactivity and specificity for targeted chemical transformations.
- Explore the key properties of this 1,3-dibromo-2-chloro-5-methylbenzene chemical intermediate, vital for R&D projects.
- Discover how its 97% min purity ensures reliable outcomes in your chemical synthesis processes.
- Understand the applications of CAS 202925-05-1, a versatile compound in organic chemistry.
- Learn about the physical characteristics, including its appearance as a light yellow to yellow solid, aiding in identification.
Advantages Offered
Reliable Purity
With a minimum purity of 97%, this chemical intermediate provides consistent and predictable results in sensitive reactions, reducing variability in your experimental outcomes and production processes.
Versatile Reactivity
The specific arrangement of bromine and chlorine atoms on the methylbenzene ring offers diverse reaction possibilities, making it an excellent choice for complex organic synthesis and as a chemical synthesis building block.
Established Supply Chain
Access to this compound through established manufacturers ensures availability and competitive pricing, supporting your ongoing research and production needs with readily available high purity chemical intermediates.
Key Applications
Pharmaceutical Synthesis
Utilize this compound as a crucial precursor in the synthesis of active pharmaceutical ingredients (APIs), leveraging its specific structure for targeted drug development.
Agrochemical Development
Its unique chemical structure makes it suitable for the development of novel agrochemicals, contributing to crop protection and yield enhancement.
Materials Science Research
The compound's properties can be explored in the development of new materials, including polymers and electronic components, where precise chemical structures are paramount.
Specialty Organic Chemistry
As a versatile building block, it finds application in various specialty organic synthesis projects, enabling the creation of custom molecules for diverse research purposes.