Unlock the Potential of Advanced Materials with 4'-[2,2':6',2''-Terpyridin]-4'-yl-Phenol
A pivotal chemical intermediate for cutting-edge material science and organic synthesis applications.
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Phenol, 4-[2,2':6',2''-terpyridin]-4'-yl-
This high-purity compound serves as a crucial building block in advanced organic synthesis. Its unique structure makes it indispensable for researchers and manufacturers developing novel materials.
- As a key synthetic material intermediate, it facilitates the creation of complex molecular architectures, aiding in the synthesis of advanced organic compounds.
- The terpyridine moiety within this molecule offers excellent coordination properties, making it valuable for applications in coordination chemistry and metal-organic frameworks.
- Leveraging its potential as a precursor for OLED material synthesis, this compound contributes to the development of next-generation display technologies and optoelectronic devices.
- Its utility in material science research enables the exploration of new functional organic materials with tailored electronic and optical properties.
Key Advantages
High Purity and Reliability
Ensuring a minimum purity of 97%, this compound provides consistent results in critical synthesis pathways, a crucial aspect when buying chemical intermediates.
Versatile Chemical Structure
The combination of phenol and terpyridine groups offers a broad spectrum of reactivity and coordination capabilities, expanding its use in various scientific disciplines.
Enabling Material Innovation
This intermediate is instrumental in driving innovation, particularly in areas like photoelectric materials and advanced polymers, supporting the pursuit of novel properties.
Key Applications
Organic Synthesis
Essential for crafting complex organic molecules, this compound is a cornerstone for synthetic material intermediates, supporting intricate chemical research and development.
Material Science
Its unique structure makes it ideal for the development of new functional materials, enabling advancements in areas such as electronics and advanced coatings.
Coordination Chemistry
The terpyridine unit's ability to chelate metal ions makes it a valuable component in creating advanced coordination complexes and metal-organic frameworks.
OLED and Optoelectronics
This intermediate shows promise in the synthesis of materials for OLEDs and other optoelectronic applications, contributing to next-generation display and lighting technologies.