The field of specialty chemical synthesis is driven by the demand for unique molecules with specific functional properties. For chemists and formulators involved in advanced material science, catalysis, and organic synthesis, sourcing precisely engineered chemical intermediates is crucial. Iron Chloro Tetrakis(4-methoxyphenyl) Porphyrin (CAS 36995-20-7) emerges as a remarkable compound, offering a blend of structural complexity and chemical versatility. As a prominent manufacturer and supplier based in China, we provide this high-purity fine chemical to support a wide array of innovative synthesis projects.

This iron-based porphyrin derivative, typically supplied as a white powder with 98% purity, is more than just a chemical compound; it's a functional building block. Its molecular formula, C48H36 Cl Fe N4 O4, hints at its intricate architecture, which includes a central iron atom within a porphyrin macrocycle, decorated with methoxyphenyl substituents. This structure imparts specific electronic and steric properties that are highly valued in various synthetic pathways. When looking to buy such specialized materials, the reliability and expertise of the supplier are key considerations.

One of the primary advantages of Iron Chloro Tetrakis(4-methoxyphenyl) Porphyrin in specialty chemical synthesis lies in its potential as a catalyst. The iron center within the porphyrin ring can participate in various oxidation-reduction reactions, making it useful in catalytic processes that require metal-organic complexes. Researchers in areas like organic chemistry, materials science, and even bioinorganic chemistry can leverage this compound to develop new catalytic systems or create novel functional materials. Our factory in China is equipped to produce this chemical with the consistency required for reproducible experimental outcomes.

Furthermore, the photophysical properties of porphyrins, including their strong absorption in the visible and near-infrared regions and their fluorescence capabilities, open doors for applications in areas such as sensors, optoelectronics, and advanced dyes. The methoxyphenyl groups can also be modified, allowing for further functionalization and tailored integration into larger molecular systems or polymers. For R&D departments looking to push the boundaries of chemical innovation, securing a dependable source for such intermediates is essential. We are positioned as a leading supplier to meet these needs.

For procurement managers and research scientists, obtaining a quotation and sample from a trusted manufacturer is the first step towards incorporating this versatile intermediate into their work. Our commitment as a supplier in China is to deliver not only a high-quality product but also to foster collaborative relationships with our clients. We understand the importance of consistent supply and technical support for specialty chemical synthesis.

(Word count: 465)