Perylene (CAS 198-55-0): A Comprehensive Guide to Its Properties, Applications, and Market
Discover the essential details of Perylene, a key compound for advanced chemical applications and research.
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Perylene
Perylene is a critical organic compound, recognized for its role as a hydrophobic fluorescent probe and its significant chemiluminescence response. Its unique molecular structure makes it valuable in various scientific and industrial applications, especially in peroxyoxalate luminescence and organic synthesis.
- Explore the detailed properties of Perylene with CAS 198-55-0, including its chemical structure and molecular weight.
- Understand how to buy Perylene chemical from reliable sources, ensuring quality and consistency for your research.
- Learn about the key Perylene manufacturers China and their contributions to the global supply chain.
- Investigate the best Perylene supplier details to secure high-purity products for your specific needs.
Advantages of Using Perylene
Superior Luminescence Properties
Leverage Perylene's reputation for having the strongest chemiluminescence response, a critical factor for achieving optimal results in luminescence studies.
Versatile Chemical Intermediate
Utilize Perylene as a versatile building block in organic synthesis, enabling the creation of complex molecules with tailored properties.
Reliable Sourcing and Quality
Benefit from readily available Perylene purity 99% grades from established manufacturers, ensuring consistent performance and high standards.
Key Applications
Fluorescent Probes
As a hydrophobic fluorescent probe, Perylene is instrumental in imaging and studying lipid bilayer membranes due to its distinct fluorescence characteristics.
Organic Synthesis
This compound serves as a key intermediate in various organic synthesis pathways, contributing to the development of novel materials and compounds.
Luminescence Research
Perylene's high chemiluminescence efficiency makes it a preferred choice for researchers working on peroxyoxalate luminescence and related light-emitting technologies.
Material Science
Its polycyclic aromatic structure and fluorescent properties also find applications in material science, contributing to the development of optoelectronic materials.