Dibromothiophene: A Versatile Building Block for Organic Synthesis and Advanced Materials
Explore the essential properties and diverse applications of dibromothiophene (CAS 3140-93-0), a key intermediate driving innovation in organic chemistry and material science. Discover its potential as a reliable precursor for your next project.
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Dibromothiophene
Dibromothiophene, with its unique C4H2Br2S molecular formula and CAS number 3140-93-0, stands as a pivotal organic intermediate. As a premier supplier in China, we provide this high-purity compound, essential for complex synthesis pathways and the development of novel materials. Its reliable performance as a heterocycle building block makes it invaluable for researchers and manufacturers seeking cutting-edge solutions.
- Explore the utility of dibromothiophene as an organic synthesis intermediate, enabling the creation of intricate molecular structures with precision and efficiency.
- Leverage dibromothiophene as an advanced material precursor, facilitating the development of next-generation materials with enhanced electronic and physical properties.
- Utilize the chemical properties of C4H2Br2S, a compound known for its versatility and consistent performance in demanding chemical reactions.
- Source high-quality dibromothiophene from a trusted manufacturer in China, ensuring reliability and purity for your critical applications.
Advantages Offered by Dibromothiophene
Exceptional Purity
Benefit from dibromothiophene with a guaranteed purity of 99% min, ensuring predictable outcomes in your organic synthesis processes.
Versatile Reactivity
Leverage the distinct reactivity of this heterocycle building block, ideal for a wide array of chemical transformations and molecular design.
Broad Application Scope
Tap into the potential of dibromothiophene for advanced material precursor roles, spanning organic electronics to specialized chemical formulations.
Key Applications
Organic Synthesis
As a critical organic intermediate, dibromothiophene empowers complex synthesis pathways, enabling the creation of novel organic compounds.
Materials Science
Its structure makes it an ideal precursor for advanced materials, contributing to the development of organic semiconductors and specialized polymers.
Pharmaceutical Development
Dibromothiophene serves as a valuable building block in the synthesis of pharmaceutical intermediates, aiding in the creation of new drug candidates.
Chemical Research
Researchers rely on the consistent quality and predictable reactivity of dibromothiophene for various academic and industrial R&D projects.