, 84-85, (1984). 28 Connelly, N. G. & Geiger, W. E. Chemical redox agents for organometallic chemistry. Chem. Rev. 96

28 Connelly, N. G. & Geiger, W. E. Chemical redox agents for organometallic chemistry. Chem. Rev. 96, 877-910, (1996).

29 Moritz, A., Cao, X. & Dolg, M. Quasirelativistic energy-consistent 5f-in-core pseudopotentials for divalent and tetravalent actinide elements. Theor. Chem. Acc. 118, 845-854, (2007).

30 Castro, L., Lam, O. P., Bart, S. C., Meyer, K. & Maron, L. Carbonate formation from CO₂ via oxo versus oxalate pathway: Theoretical investigations into the mechanism of uranium-mediated carbonate formation. Organometallics 29, 5504-5510, (2010).

31 Castro, L., Yahia, A. & Maron, L. Are 5f Electrons Really Active in Organoactinide Reactivity? Some Insights from DFT Studies. ChemPhysChem 11, 990-994, (2010).

32 Labouille, S., Nief, F. & Maron, L. Theoretical Treatment of Redox Processes Involving Lanthanide(II) Compounds: Reactivity of Organosamarium(II) and Organothulium(II) Complexes with CO₂ and Pyridine. J. Phys. Chem. A