Unlock the Potential of [1,1:3,1-Terphenyl]-4,4-diol for Advanced Materials
Explore the fundamental properties and diverse applications of this crucial organic compound in material science.
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[1,1:3,1-Terphenyl]-4,4-diol
This essential organic compound serves as a pivotal building block in the creation of advanced materials, particularly in the field of Covalent Organic Frameworks (COFs). Its well-defined structure and high purity make it indispensable for researchers aiming to develop materials with novel optoelectronic and photocatalytic properties.
- Understanding the chemical structure of 1,1:3,1-terphenyl]-4,4-diol is key to predicting its performance in complex syntheses.
- The terphenyl-4,4-diol properties, including its melting and boiling points, dictate its processability and stability in various chemical reactions.
- Leverage its role as a terphenyl-4,4-diol COF precursor to engineer materials for cutting-edge applications.
- Researchers often seek to buy terphenyl-4,4-diol for its proven efficacy in creating highly ordered porous materials.
Key Advantages
High Purity and Consistency
Ensuring 97% minimum purity, this compound guarantees reliable and reproducible results in your material synthesis, a crucial aspect when focusing on terphenyl-4,4-diol chemical structure fidelity.
Versatile COF Precursor
Its structure makes it an ideal terphenyl-4,4-diol COF precursor, enabling the formation of frameworks with tailored porosity and functionality for diverse applications.
Enabling Advanced Material Properties
The terphenyl-4,4-diol properties are instrumental in developing materials for advanced applications like photocatalysis and optoelectronics.
Key Applications
COF Materials Synthesis
This compound is a cornerstone in the synthesis of Covalent Organic Frameworks, contributing to materials used in catalysis and separation technologies, making understanding terphenyl-4,4-diol applications vital.
Optoelectronics
Its molecular structure lends itself to the development of optoelectronic devices, capitalizing on its inherent electronic and optical properties.
Photocatalysis
Researchers utilize this chemical building block to create novel photocatalysts for various chemical transformations, leveraging its terphenyl-4,4-diol synthesis pathways.
Organic Synthesis
Beyond COFs, it serves as a valuable intermediate in broader organic synthesis research, facilitating complex molecular constructions.