Vibrational Properties of [FeH(N2)(depe)2]+ and [FeCl(N2)(depe)2]+]: Dinitrogen Bonding in the Low Activation Limit

The vibrational properties of the two octahedral Fe^II dinitrogen complexes [FeH(N₂)(depe)₂]⁺ ( 1 ) and [FeCl(N₂)(depe)₂]⁺ ( 2 , depe = 1, 2‐bis(diethylphosphino)ethane) are investigated with the help of infrared and Raman spectroscopies. Vibrational data are evaluated with a Quantum Chemistry Assisted Normal Coordinate Analysis (QCA‐NCA; N. Lehnert, F. Tuczek, Inorg. Chem. 1999 , 38, 1659). In agreement with high values found for ν(NN) and the corresponding force constants f(NN), the N₂ ligands in compounds 1 and 2 are non‐activated which corresponds to the observation that N₂ is not protonable in Fe^II systems. Taking into account the short Fe‐N bond lengths, the values of the Fe‐N stretching force constants (2.55mdyn/Å for 1 and 2.58mdyn/Å for 2 ) are found to be compatible with those of other Fe^II low‐spin compounds coordinated to backbonding N‐coordinating ligands. The force fields obtained for the Fe‐N₂ units of 1 and 2 are almost identical although the thermal stability of 1 and 2 with respect to loss of N₂ is different. This indicates that the zero‐point vibrational levels are unaffected by possible ground‐state level crossing processes occuring at larger Fe‐N bond lengths, as observed for 2 (O. Franke, B. E. Wiesler, N. Lehnert, C. Näther, V. Ksenofontov, J. Neuhausen, F. Tuczek, Inorg. Chem. 2002 , 41, 3491).