. Author manuscript; available in PMC: 2012 Nov 7.

Published in final edited form as: Inorg Chem. 2011 Oct 11;50(21):11021–11031. doi: 10.1021/ic201566n

Table 2.

Mo 3d core and valence ionization energies (eV) and subsequent orbital interaction energy analysis for the predominantly Mo 4d valence orbital of the bent-metallocene fragment.

Compound	Mo 3d_5/2 IE	ΔIE_C^a	0.8ΔIE_C	FOE^b	IE_V^c	ΔE_VO^d
Cp₂MoH₂	233.9±0.1	0.0	0.0	6.43±0.02	6.43±0.02	0.0	nonbonding
Cp₂Mo(bdt)	234.6±0.1	0.7±0.1	0.6±0.1	7.0±0.1	7.04±0.02(a'_b)	0.0±0.1	nonbonding

Core ionization energy shift = Mo 3d IE(Cp₂Mo(bdt)) − 233.9.

Predominantly Mo 4d fragment orbital energy observed for Cp₂MoH₂ and indicated for Cp₂Mo(bdt) = 6.43 + 0.8ΔIE_C.

Observed molecular ionization energies predominantly associated with the Mo 4d orbital.

Overlap interaction energy corrected for charge potential = IE_V − FOE.