Unlock Advanced Chemistry with 4,4'-Di-tert-butyl-2,2'-bipyridine
Discover the potential of a superior bipyridyl ligand that enhances catalytic activity and drives innovation in materials science, offered by a leading supplier in China.
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4,4'-Di-tert-butyl-2,2'-bipyridine
As a trusted supplier in China, we provide high-purity 4,4'-Di-tert-butyl-2,2'-bipyridine, a vital component in advanced chemical synthesis and material development. This compound's unique structure, featuring tert-butyl groups at the 4 and 4' positions, significantly enhances its solubility and modifies its electronic properties, making it a preferred choice for researchers and industries seeking superior performance.
- Discover efficient Bipyridyl Ligand Synthesis routes utilizing this compound.
- Explore its pivotal role in CO2 Reduction Catalysis, improving environmental solutions.
- Leverage its properties as key Metal Complex Ligands for novel applications.
- Incorporate it as essential Organic Chemistry Intermediates for sophisticated syntheses.
Advantages You Gain
Enhanced Solubility & Tuned Properties
The strategic placement of tert-butyl groups on the bipyridine core greatly improves its solubility and allows for fine-tuning of electronic characteristics, crucial for precise chemical reactions and material design.
Catalytic Activity Boost
This compound is instrumental in boosting catalytic activity, particularly in the challenging field of Carbon Dioxide Reduction Catalysis, presenting opportunities for more sustainable chemical processes.
Versatile Material Precursor
As a versatile intermediate, it serves as a foundational element for creating advanced materials, including those used in dye-sensitized solar cells and organic light-emitting diodes (OLEDs).
Key Applications
Coordination Chemistry
As a fundamental element in Metal Complex Ligands, it enables the creation of diverse coordination compounds with unique chemical and physical attributes, vital for scientific research.
Renewable Energy
Its role in synthesizing complexes for dye-sensitized solar cells highlights its importance in developing efficient solutions for renewable energy generation.
Catalysis
The compound's efficacy in CO2 Reduction Catalysis makes it a significant player in developing greener chemical processes and energy conversion technologies.
Organic Synthesis
It serves as a crucial building block for complex Organic Chemistry Intermediates, supporting the creation of novel molecules and materials.