Understanding the chemical intricacies of compounds like Phanquinone (CAS 84-12-8) is vital for leveraging their full potential. NINGBO INNO PHARMCHEM CO.,LTD. delves into the chemistry of this versatile compound, from its synthesis to its promising future applications.

Phanquinone is an organic compound characterized by its orange-red crystalline powder form and a purity level of 99% minimum. Its chemical structure, featuring a phenanthroline core with dione functionality, dictates its reactivity and biological activity. The established Phanquinone production methods often involve complex oxidation reactions, highlighting the sophistication required in its synthesis. Researchers are continually exploring and refining these Phanquinone production methods to improve yield and purity.

Chemically, Phanquinone is known for its ability to participate in reactions that form stable derivatives, a property exploited in its use as a derivatization reagent in analytical techniques such as HPLC. This makes it invaluable for precise amino acid analysis. Its utility as a Phanquinone pharmaceutical intermediate is also a testament to its reactive sites, enabling its incorporation into larger, more complex drug molecules.

Beyond its current applications, the ongoing investigation into Phanquinone's cytotoxic effects against cancer cells points towards exciting future directions. This research is expanding the perceived value of Phanquinone, pushing the boundaries of its application in medicinal chemistry. For those looking to buy Phanquinone online for research or development, sourcing from established Phanquinone CAS 84-12-8 manufacturers like NINGBO INNO PHARMCHEM CO.,LTD. ensures access to a compound that meets high chemical standards.

As a crucial component in both pharmaceutical synthesis and advanced analytical methodologies, Phanquinone continues to be a compound of significant interest. NINGBO INNO PHARMCHEM CO.,LTD. is dedicated to supporting the scientific community by providing this essential chemical, contributing to advancements across multiple disciplines.