10091-01-7 | 6-(2-Methoxy-4,5-methylenedioxyphenyl)-7H-furo[3,2-g][1]benzopyran-7-one

Availability
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Description

• Catalog Number: AE54843
• Chemical Name: 6-(2-Methoxy-4,5-methylenedioxyphenyl)-7H-furo[3,2-g][1]benzopyran-7-one
• CAS Number: 10091-01-7
• Molecular Formula: C19H12O6
• Molecular Weight: 336.2950
• SMILES: COc1cc2OCOc2cc1c1cc2cc3ccoc3cc2oc1=O

Upstream Synthesis Route

Pachyrrhizin, a natural compound found in certain plant species, has shown significant potential in chemical synthesis applications. With its unique molecular structure and properties, Pachyrrhizin has emerged as a valuable reagent in various synthetic pathways.One of the key applications of Pachyrrhizin in chemical synthesis is its use as a chiral building block. Due to its asymmetric nature, Pachyrrhizin can serve as a powerful tool for creating enantiomerically pure compounds. This is particularly important in the pharmaceutical industry, where chirality plays a crucial role in drug efficacy and safety.Additionally, Pachyrrhizin has been utilized in the synthesis of heterocyclic compounds. Its versatile reactivity allows for the construction of complex ring systems, which are prevalent in many biologically active molecules. By incorporating Pachyrrhizin into synthetic routes, chemists can access diverse chemical structures with potential applications in drug discovery and material science.Furthermore, Pachyrrhizin has demonstrated catalytic properties in certain reactions, enabling efficient and selective transformations. Its ability to promote specific chemical processes under mild conditions makes it a sought-after catalyst in organic synthesis. By harnessing the catalytic potential of Pachyrrhizin, chemists can streamline synthetic procedures and reduce waste generation.Overall, Pachyrrhizin's role in chemical synthesis showcases its versatility and significance in modern organic chemistry. From serving as a chiral scaffold to acting as a catalyst, this natural product continues to inspire innovative synthetic strategies and facilitate the creation of novel molecules with diverse functionalities.