Meso-Tetra(4-chlorophenyl)porphine: Properties, Applications, and Synthesis Insights
Explore the versatile nature of this synthetic porphyrin, crucial for advancements in medicine, energy, and materials science.
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Meso-Tetra(4-chlorophenyl)porphine
A key synthetic porphyrin compound, this chemical entity offers a unique combination of properties derived from its halogenated structure. Its utility spans critical research and development fields, making it a valuable asset for scientific innovation.
- Explore the diverse uses of synthetic porphyrins, including their role in photodynamic therapy for targeted cancer treatment.
- Investigate how porphyrins contribute to solar cell efficiency, acting as photosensitizers to convert light into electricity.
- Learn about the application of porphyrins in catalysis, enhancing reaction rates and selectivity in organic synthesis.
- Understand the function of porphyrin-based fluorescent probes in biological imaging for real-time cellular process visualization.
Key Advantages
High Purity and Stability
Benefit from a high purity (>97%) solid form, ensuring reliable results in your research. This synthetic porphyrin boasts excellent stability, crucial for consistent performance across various demanding applications.
Versatile Application Spectrum
Leverage its utility in photodynamic therapy, solar energy conversion, and as fluorescent probes. Its applicability extends to advanced material science, contributing to cutting-edge electronics and sensor development.
Enhanced Solubility
Its design allows for good solubility in organic solvents, simplifying handling and integration into complex chemical processes and formulations for researchers.
Key Applications
Photodynamic Therapy
As a photosensitizer, it generates reactive oxygen species upon light activation, vital for cancer cell destruction in targeted therapeutic strategies.
Solar Energy Conversion
Enhance the efficiency of dye-sensitized solar cells by utilizing its potent light absorption capabilities to maximize solar energy capture.
Fluorescent Probes
Its strong fluorescence properties make it an invaluable tool for researchers conducting biological imaging, enabling detailed visualization of cellular activities.
Catalysis in Organic Synthesis
Acts as an effective catalyst in various chemical reactions, improving the speed and accuracy of organic synthesis processes.