The catalyzed hydrogenation of CO2 to formate via a triphosphine-ligated Cu(I) was studied computationally. Two bases, DBU and TBD, were studied in the context of two proposed mechanisms in MeCN solvent. Of the four functionals benchmarked, M06 was generally in the best agreement with the experimentally estimated values. Activation of H2 was explored by using LCu(DBU)+ to form LCuH. Dissociation of a ligand arm results in higher barriers to form the key hydride complex, LCuH. There is no significant difference between the choice of base, DBU or TBD with respect to the proposed mechanisms. We propose that the experimentally observed differences between DBU and TBD reactivity for this mechanism are due to off-pathway changes.
Published: September 25, 2021
Citation
Persaud R., Z. Fang, C.M. Zall, A.M. Appel, and D.A. Dixon. 2021.Computational Study of Triphosphine-Ligated Cu(I) Catalysts for Hydrogenation of CO2 to Formate.Journal of Physical Chemistry A 125, no. 30:6600-6610.PNNL-SA-161706.doi:10.1021/acs.jpca.1c04050