Unlock the Potential: 3,4-Dibromothiophene-2-Carbaldehyde for Advanced Synthesis
Discover the versatile applications and detailed properties of 3,4-Dibromothiophene-2-Carbaldehyde, a crucial intermediate for organic synthesis and cutting-edge materials development.
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3,4-Dibromothiophene-2-Carbaldehyde
As a leading supplier in China, we offer high-purity 3,4-Dibromothiophene-2-Carbaldehyde (CAS 32896-02-9), a vital building block for complex organic molecules and advanced materials. Our commitment to quality ensures that this heterocyclic compound meets stringent research and development needs.
- Explore the diverse applications of heterocyclic compound applications in novel material design.
- Leverage our 3,4-dibromothiophene-2-carbaldehyde synthesis expertise for your custom projects.
- Benefit from our high purity chemical intermediates, crucial for reliable experimental outcomes.
- Utilize this thiophene derivative for research in electronic materials development.
Key Advantages Provided
Exceptional Purity
Our 3,4-Dibromothiophene-2-Carbaldehyde is processed with rigorous quality control, ensuring 97% purity for reliable outcomes in organic synthesis.
Versatile Reactivity
The presence of bromine substituents and an aldehyde group makes this a reactive intermediate, essential for various cross-coupling reactions and nucleophilic additions in chemical synthesis.
Broad Material Applications
It serves as a key component in the development of electronic materials, enabling innovation in optoelectronics and other advanced fields.
Key Applications
Organic Synthesis
As a crucial organic intermediate, it is widely used in complex organic synthesis pathways.
Materials Science
Its unique structure makes it valuable for creating new materials with tailored properties.
Electronic Materials
It acts as a building block for advanced electronic materials, contributing to technological advancements.
Research & Development
Essential for academic and industrial research, supporting the exploration of novel chemical structures and applications.