Analysis on Methylene Oxidation in Aromatic Molecules
Achieving Chemoselective Methylene Oxidation in the Presence of Fragrant Functionalities
Keywords:
methylene oxidation, aromatic molecules, site-specific, aliphatic C–H oxidations, oxidatively labile, fragrant functionalities, chemoselective reactivity, late-stage oxidative derivatizations, pharmaceuticals, therapeutically significant natural productsAbstract
Regardless of critical advancement in the improvement of site-specific aliphatic C–H oxidations over the previous decade, the capacity to oxidize solid methylene C–H bonds within the sight of all the more oxidatively labile fragrant functionalities remains a noteworthy unsolved issue. Such chemoselective reactivity is exceptionally attractive for empowering late-arrange oxidative derivatizations of pharmaceuticals and therapeutically significant regular items that frequently contain such usefulness. Here, we report a basic manganese little atom impetus Mn(CF3–PDP) framework that accomplishes such chemoselectivity through an unforeseen cooperative energy of impetus plan and corrosive added substance.Downloads
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Published
2019-03-01
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How to Cite
[1]
“Analysis on Methylene Oxidation in Aromatic Molecules: Achieving Chemoselective Methylene Oxidation in the Presence of Fragrant Functionalities”, JASRAE, vol. 16, no. 4, pp. 810–812, Mar. 2019, Accessed: Mar. 13, 2026. [Online]. Available: https://ignited.in/index.php/jasrae/article/view/10552
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