1,4-Dibromo-2,3-bis(bromomethyl)but-2-ene: A Key Intermediate in Chemical Synthesis
Explore the versatile applications of this crucial building block in organic synthesis and pharmaceutical research.
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1,4-Dibromo-2,3-bis(bromomethyl)but-2-ene
This chemical compound is a highly valuable intermediate, crucial for numerous advanced organic synthesis pathways. Its unique structure makes it an essential component in the development of complex molecules for various industries, particularly in pharmaceuticals.
- As a vital component in the synthesis of substituted cyclohexanes, its utility in organic synthesis is significantly enhanced.
- This compound serves as a critical building block for heterocycle synthesis, enabling the creation of diverse chemical structures.
- Its role as a pharmaceutical raw intermediate underscores its importance in drug discovery and development processes.
- Research suggests its potential as ubiquitin specific peptidase 9X inhibitors, indicating future applications in cancer therapeutics.
Key Advantages
High Purity and Quality
With a guaranteed purity of 97% min, it ensures reliable and consistent results in your chemical synthesis projects, supporting the creation of high-quality end products.
Versatile Synthetic Utility
The chemical structure of this compound makes it a versatile tool for organic synthesis, allowing for a wide range of reactions and transformations, crucial for developing novel materials.
Pharmaceutical Potential
Its application as a pharmaceutical intermediate and its potential role in cancer treatment highlight its significant value in the life sciences sector, supporting drug development.
Key Applications
Organic Synthesis
This compound is a fundamental building block for creating a broad spectrum of organic molecules, essential for research and industrial applications.
Pharmaceutical Research
As a critical pharmaceutical raw intermediate, it plays a vital role in the synthesis of active pharmaceutical ingredients (APIs) and new drug candidates.
Heterocycle Synthesis
Its structure is particularly well-suited for the construction of heterocyclic compounds, which are prevalent in many biologically active molecules.
Potential Cancer Therapeutics
Emerging research into its use as an inhibitor of ubiquitin specific peptidase 9X suggests a promising avenue for developing new cancer treatments.