Tetraphenylporphyrin (TPP) CAS 917-23-7: A Versatile Porphyrin Derivative for Advanced Chemical Applications
Discover the unique properties and diverse applications of Tetraphenylporphyrin (TPP), a key compound in synthetic chemistry, catalysis, and molecular electronics. Explore its advantages as a reliable chemical research material.
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Tetraphenylporphyrin
As a leading supplier in China, we provide high-quality Tetraphenylporphyrin (TPP), CAS 917-23-7. This synthetic heterocyclic compound is known for its distinctive blue to purple glistening crystalline powder appearance and remarkable chemical stability. TPP serves as a crucial photosensitizer and a key component in forming metal coordination complexes, making it invaluable in various advanced chemical research and industrial applications. We pride ourselves on being a reliable manufacturer in China, ensuring consistent quality and supply for your critical projects.
- Explore the diverse chemical applications of TPP, a versatile photosensitizer widely used in research.
- Leverage TPP's ability to form metal complexes, enabling its use as a catalyst precursor in various chemical reactions.
- Utilize TPP in supramolecular chemistry and molecular electronics, pushing the boundaries of material science.
- Benefit from the consistent quality of our TPP, a testament to our rigorous manufacturing standards as a Chinese supplier.
Advantages Offered by TPP
Exceptional Photosensitizing Properties
Tetraphenylporphyrin excels as a photosensitizer, crucial for applications requiring light-activated processes. Its ability to generate singlet oxygen makes it a valuable component in photodynamic therapy research and other light-driven chemical transformations, supporting advanced research in fields like medical chemistry.
Versatile Metal Complex Formation
The structure of TPP readily forms coordination complexes with a wide range of metals. This characteristic is key to its application as a catalyst precursor, enabling precise control over chemical reactions and contributing to the development of more efficient catalytic processes. Discovering its precise long tail keyword applications is key for researchers.
High Thermal and Chemical Stability
With a melting point exceeding 300°C and good solubility in organic solvents like dichloromethane, TPP offers robust performance. This stability ensures reliable outcomes in demanding chemical environments, making it a trusted material for synthetic organic chemistry endeavors.
Key Applications
Photosensitization
TPP is widely used as a photosensitizer, crucial for generating singlet oxygen in various photochemical reactions and research studies. Understanding its specific long tail keyword uses can unlock new research avenues.
Catalysis
As a precursor for metal complexes, TPP serves as an effective catalyst in numerous organic transformations, offering enhanced reaction efficiencies and selectivity for chemists.
Molecular Electronics
The unique electronic properties of TPP make it a valuable component in the development of organic electronic devices and supramolecular assemblies, contributing to advancements in material science.
Biochemistry and Medicinal Chemistry
TPP and its derivatives are investigated for their biological activities, including potential roles as inhibitors of microtubule assembly, highlighting their importance in pharmaceutical research and development.