Abstract
The mechanistic insights into hydrogenations of hex-5-en-2-one, isoprene, and 4-vinylcyclohex-1-ene catalyzed by pincer (MesCCC)Co (Mes = bis(mesityl-benzimidazol-2-ylidene)phenyl) complexes are computationally investigated by using the density functional theory. Different from a previously proposed mechanism with a cobalt dihydrogen complex (MesCCC)Co-H2 as the catalyst, we found that its less stable dihydride isomer, (MesCCC)Co(H)2, is the real catalyst in those catalytic cycles. The generations of final products with H2 cleavages for the formations of C−H bonds are the turnover-limiting steps in all three hydrogenation reactions. We found that the hydrogenation selectivity of different C=C bonds in the same compound is dominated by the steric effects, while the hydrogenation selectivity of C=C and C=O bonds in the same compound could be primarily influenced by the electronic effects. In addition, the observed inhabition of the hydrogenation reactions by excessive addition of PPh3 could be explained by a 15.8 kcal/mol free energy barrier for the dissociation of PPh3 from the precatalyst.
Highlights
The selective hydrogenation of functionalized alkenes remains a largely unmet need in petrochemical, fine chemical, and pharmaceutical industries [1,2,3,4,5]
C=C bond bonds, we the studied the mechanism for the hydrogenation of the doubly substituted bonds, we studied the mechanism for the hydrogenation of the doubly substituted in isoprene
InInorder to find out the key factors that order to find out the key factors thatinfluence influencethe theselectivity selectivityininthe thehydrogenation hydrogenation ofofthe bond in cycloalkene derivatives, we further explored the mechanism the C=C bond in cycloalkene derivatives, we further explored the mechanismfor forthe the hydrogenation of
Summary
Citation: Zuo, Z.; Yang, X. State Key Laboratory for Structural Chemistry of Unstable and Stable Species, Institute of Chemistry Chinese Beijing National Laboratory for Molecular Sciences, CAS Research/Education Center for Excellence in Molecular Sciences, Beijing 100190, China
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