81682-58-8Relevant articles and documents
Supporting-Electrolyte-Free Anodic Oxidation of Oxamic Acids into Isocyanates: An Expedient Way to Access Ureas, Carbamates, and Thiocarbamates
Petti, Alessia,Fagnan, Corentin,van Melis, Carlo G. W.,Tanbouza, Nour,Garcia, Anthony D.,Mastrodonato, Andrea,Leech, Matthew C.,Goodall, Iain C. A.,Dobbs, Adrian P.,Ollevier, Thierry,Lam, Kevin
, p. 2614 - 2621 (2021/06/27)
We report a new electrochemical supporting-electrolyte-free method for synthesizing ureas, carbamates, and thiocarbamates via the oxidation of oxamic acids. This simple, practical, and phosgene-free route includes the generation of an isocyanate intermediate in situ via anodic decarboxylation of an oxamic acid in the presence of an organic base, followed by the one-pot addition of suitable nucleophiles to afford the corresponding ureas, carbamates, and thiocarbamates. This procedure is applicable to different amines, alcohols, and thiols. Furthermore, when single-pass continuous electrochemical flow conditions were used and this reaction was run in a carbon graphite Cgr/Cgr flow cell, urea compounds could be obtained in high yields within a residence time of 6 min, unlocking access to substrates that were inaccessible under batch conditions while being easily scalable.
Visible-light mediated carbamoyl radical addition to heteroarenes
Jatoi, Ashique Hussain,Pawar, Govind Goroba,Robert, Frédéric,Landais, Yannick
, p. 466 - 469 (2019/01/10)
The generation of carbamoyl radicals, followed by their addition to heteroarenes, was performed under mild conditions through a metal-free photocatalyzed decarboxylation of oxamic acids. The process has been applied to the carbamoylation of heteroaromatic bases using α-aminoacid-derived oxamic acids, leading to the corresponding amides without racemization.
Oxamyl dipeptide caspase inhibitors developed for the treatment of stroke
Linton, Steven D.,Aja, Teresa,Allegrini, Peter R.,Deckwerth, Thomas L.,Diaz, Jose-Luis,Hengerer, Bastian,Herrmann, Julia,Jahangiri, Kathy G.,Kallen, Joerg,Karanewsky, Donald S.,Meduna, Steven P.,Nalley, Kip,Robinson, Edward D.,Roggo, Silvio,Rovelli, Giorgio,Sauter, Andre,Sayers, Robert O.,Schmitz, Albert,Smidt, Robert,Ternansky, Robert J.,Tomaselli, Kevin J.,Ullman, Brett R.,Wiessner, Christoph,Wu, Joe C.
, p. 2685 - 2691 (2007/10/03)
Structural modifications were made to a previously described acyl dipeptide caspase inhibitor, leading to the oxamyl dipeptide series. Subsequent SAR studies directed toward the warhead, P2, and P4 regions of this novel peptidomimetic are described herein.