机构地区:[1]Department of Chemistry, University of Science and Technology of China
出 处:《Science China Chemistry》2013年第5期619-632,共14页中国科学(化学英文版)
基 金:the financial support from the National Basic Research Program of China (973 program, 2012CB215306);the National Natural Science Foundation of China (NSFC, 20832004, 20972148);CAS(KJCX2-EW-J02)
摘 要:Intramolecular ortho-C-H activation and C-N/C-O cyclizations of phenyl amidines and amides have recently been achieved under Cu catalysis. These reactions provide important examples of Cu-catalyzed functionalization of inert C-H bonds, but their mechanisms remain poorly understood. In the present study the several possible mechanisms including electrophilic aro- matic substitution, concerted metalation-deprotonation (CMD), Friedel-Crafts mechanism, radical mechanism, and proton- coupled electron transfer have been theoretically examined. Cu(II)-assisted CMD mechanism is found to be the most feasible for both C-O and C-N cyclizations. This mechanism includes three steps, i.e. CMD with Cu(II), oxidation of the Cu(II) inter- mediate, and reductive elimination from Cu(III). Our calculations show that Cu(II) mediates the C-H activation through an six-membered ring CMD transition state similar to that proposed for many Pd-catalyzed C-H activation reactions. It is also in- teresting to find that the rate-limiting steps are different for C-N and C-O cyclizations: for the former it is concerted metalation-deprotonation with Cu(II), whereas for the latter it is reductive elimination from Cu(III). The above conclusions are consistent with the experimental kinetic isotope effects (1.0 and 2.1 for C-O and C-N cyclizations, respectively), substituent effects, and the reactions under O2-free conditions.Intramolecular ortho-C-H activation and C-N/C-O cyclizations of phenyl amidines and amides have recently been achieved under Cu catalysis. These reactions provide important examples of Cu-catalyzed functionalization of inert C-H bonds, but their mechanisms remain poorly understood. In the present study the several possible mechanisms including electrophilic aromatic substitution, concerted metalation-deprotonation (CMD), Friedel-Crafts mechanism, radical mechanism, and protoncoupled electron transfer have been theoretically examined. Cu(Ⅱ)-assisted CMD mechanism is found to be the most feasible for both C-O and C-N cyclizations. This mechanism includes three steps, i.e. CMD with Cu(Ⅱ), oxidation of the Cu(Ⅱ) intermediate, and reductive elimination from Cu(Ⅲ). Our calculations show that Cu(Ⅱ) mediates the C-H activation through an six-membered ring CMD transition state similar to that proposed for many Pd-catalyzed C-H activation reactions. It is also interesting to find that the rate-limiting steps are different for C-N and C-O cyclizations: for the former it is concerted metalation-deprotonation with Cu(Ⅱ), whereas for the latter it is reductive elimination from Cu(Ⅲ). The above conclusions are consistent with the experimental kinetic isotope effects (1.0 and 2.1 for C-O and C-N cyclizations, respectively), substituent effects, and the reactions under O2 -free conditions.
关 键 词:mechanism DFT copper C-H activation concerted metalation-deprotonation
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