2,4-Diphenylimidazole CAS 670-83-7: Properties, Applications, and Synthesis
Explore the multifaceted nature of 2,4-Diphenylimidazole, a key compound in organic synthesis and advanced material applications.
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2,4-Diphenylimidazole
An organic compound with the molecular formula C15H12N2, 2,4-Diphenylimidazole (CAS 670-83-7) is characterized by its imidazole ring substituted with phenyl groups. It exhibits a range of chemical and physical properties making it valuable across different scientific disciplines.
- Advancing Medicinal Chemistry: Research into imidazole derivatives biological activity shows promise for compounds like 2,4-Diphenylimidazole in developing novel therapeutic agents, particularly its potential antimicrobial properties.
- Facilitating Chemical Sensors: Its ability to act as a fluorescent probe makes it a key component in chemical sensor development, especially for detecting metal ions like aluminum(III) in environmental monitoring.
- Enabling Materials Science Applications: The unique chemical structure of 2,4-Diphenylimidazole allows for its incorporation into various materials, contributing to advancements in materials science applications.
- Driving Organic Synthesis: The availability of diverse 2,4-Diphenylimidazole synthesis methods, from traditional condensation to green chemistry approaches, ensures its accessibility for broad research and industrial use.
Key Advantages
Versatile Synthesis Routes
Discover efficient and eco-friendly 2,4-Diphenylimidazole synthesis methods, including catalyst-free and microwave-assisted techniques, facilitating its production and application.
Broad Scientific Applications
Explore the wide-ranging 2,4-Diphenylimidazole medicinal chemistry applications and its role in designing advanced materials and sensitive chemical sensors.
Characterized Properties
Benefit from detailed insights into its physical and chemical properties, including its 2,4-Diphenylimidazole fluorescent properties and spectral data, crucial for precise application.
Key Applications
Pharmaceutical Research
Investigating imidazole derivatives biological activity for potential antimicrobial and therapeutic uses highlights 2,4-Diphenylimidazole's role in drug discovery.
Analytical Chemistry
Its 2,4-Diphenylimidazole fluorescent properties make it ideal for developing highly sensitive chemical sensors for environmental monitoring and analysis.
Materials Development
The compound is explored for its integration into novel materials, contributing to advancements in electronic and functional material design.
Organic Synthesis Intermediate
As a versatile building block, it is used in various organic synthesis pathways to create complex organic molecules with desired properties.