1026003-01-9Relevant academic research and scientific papers
Optional site selectivity in the metalation of o- and p-anisidine through matching of reagents with neighboring groups
Maggi, Raimondo,Schlosser, Manfred
, p. 5430 - 5434 (1996)
N-Protected o- and p-anisidines (2- and 4-methoxyanilines) undergo a hydrogen/metal exchange at the position adjacent to either the oxygen or nitrogen atom depending on what organometalic base is employed. These synthetically useful findings support previous views about neighboring group/reagent interactions.
A phosgene and peroxide-free one-pot tandem synthesis of isatoic anhydrides involving anthranilic acid, boc anhydride and 2-chloro-N-methyl pyridinium iodide
Verma, Chhaya,Sharma, Somesh,Pathak, Arunendra
supporting information, p. 6897 - 6899 (2019/04/10)
A phosgene and peroxide-free approach for the synthesis of isatoic anhydrides has been described. The synthesis involves the carbamate formation with boc anhydride followed by in situ cyclization to afford the isatoic anhydride. The importance of this synthetic strategy is in the ease of operation, scalability and preparation from readily available raw materials.
Toolbox approach to the search for effective ligands for catalytic asymmetric Cr-mediated coupling reactions
Guo, Haibing,Dong, Cheng-Guo,Kim, Dae-Shik,Urabe, Daisuke,Wang, Jiashi,Kim, Joseph T.,Liu, Xiang,Sasaki, Takeo,Kishi, Yoshito
supporting information; experimental part, p. 15387 - 15393 (2010/02/15)
Chromium catalysts derived from chiral sulfonamides represented by A effect the couplings of aldehydes with vinyl, allyl, or alkyl halides. With three distinct sites for structural modification, A affords access to a structurally diverse pool of chiral sulfonamides. The Cr catalysts derived from these sulfonamides exhibit a broad range of catalyst-substrate matching profiles. A strategy is presented to search for a satisfactory chiral sulfonamide for a given substrate. In order to demonstrate the generality and effectiveness of this approach, five diverse C-C bond-forming cases have been selected from the halichondrin synthesis. For each of the cases, two ligands have been deliberately searched for, to induce the formation of (R)- and (S)-alcohols, respectively, at the arbitrarily chosen efficiency level of "≥80% yield with ≥20:1 stereoselectivity in the presence of ≤20 mol % of a Cr catalyst". For 9 out of the 10 cases studied, a satisfactory catalyst has been found within this pool of sulfonamides. Even for the remaining case, a Cr catalyst inducing stereoselectivity up to 8:1 has been identified.
