Discover the Versatility of 2,2'-Biimidazole
A key ligand for Metal-Organic Frameworks and advanced material synthesis.
Get a Quote & SampleProduct Core Value
2,2'-Biimidazole
Unlock new possibilities in material science with 2,2'-Biimidazole (CAS: 492-98-8). This high-purity organic compound serves as a crucial building block, particularly as a ligand in the synthesis of Metal-Organic Frameworks (MOFs). Its unique structure and properties make it invaluable for advanced research and development in chemistry.
- Explore the synthesis of advanced Metal-Organic Frameworks using 2,2'-Biimidazole as a key MOF ligand.
- Achieve high purity (98% min) for your critical organic chemistry building blocks and research applications.
- Leverage the unique heterocyclic structure of 2,2'-Biimidazole for novel material science discoveries.
- Investigate the diverse applications of this compound in organic synthesis and the development of photoelectric materials.
Key Advantages
Exceptional Purity
Ensure reliable and reproducible results in your research by utilizing 2,2'-Biimidazole with a guaranteed purity of 98% min, making it an excellent choice for precise organic chemistry building blocks.
Versatile Ligand
As a critical MOF ligand, 2,2'-Biimidazole enables the creation of sophisticated porous materials with tunable properties, vital for applications in catalysis and gas storage.
Broad Applicability
Beyond MOFs, this compound is instrumental in various organic synthesis pathways and contributes to advancements in photoelectric materials, showcasing its wide-ranging utility.
Key Applications
Metal-Organic Frameworks (MOFs)
Utilize 2,2'-Biimidazole as a premier MOF ligand to construct advanced porous materials with tailored functionalities for adsorption, separation, and catalysis.
Organic Synthesis
Incorporate this versatile compound into complex organic synthesis procedures as a crucial intermediate, facilitating the creation of novel molecular structures.
Material Science Research
Explore the potential of 2,2'-Biimidazole in developing next-generation materials, benefiting from its unique heterocyclic structure in innovative projects.
Photoelectric Materials
Investigate the role of 2,2'-Biimidazole in the field of photoelectric materials, contributing to the advancement of electronic and optical technologies.