704-14-3Relevant articles and documents
Iodine(III)-Catalyzed Electrophilic Nitration of Phenols via Non-Br?nsted Acidic NO2+ Generation
Juárez-Ornelas, Kevin A.,Jiménez-Halla, J. Oscar C.,Kato, Terumasa,Solorio-Alvarado, César R.,Maruoka, Keiji
supporting information, p. 1315 - 1319 (2019/03/07)
The first catalytic procedure for the electrophilic nitration of phenols was developed using iodosylbenzene as an organocatalyst based on iodine(III) and aluminum nitrate as a nitro group source. This atom-economic protocol occurs under mild, non-Br?nsted acidic and open-flask reaction conditions with a broad functional-group tolerance including several heterocycles. Density functional theory (DFT) calculations at the (SMD:MeCN)Mo8-HX/(LANLo8+f,6-311+G) level indicated that the reaction proceeds through a cationic pathway that efficiently generates the NO2+ ion, which is the nitrating species under neutral conditions.
Biomimetic synthesis of isoindolinones related to the marilines
Augner, Daniel,Schmalz, Hans-Günther
supporting information, p. 1395 - 1397 (2015/06/16)
The non-enzymatic formation of the racemic isoindolinone core structure during the biosynthesis of the marine natural products mariline A and B was mimicked by employing structurally closely related model substrates. Thus, condensation of 2-formyl-3,5-dim
Analgesic Compounds, Compositions, and Uses Thereof
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Page/Page column 20, (2011/10/04)
The invention relates to compounds, compositions, and methods for diminishing pain in a subject in need thereof comprising administering the compounds and compositions herein described.