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RESEARCH PRODUCT

The Reduction Pathway of End-on Coordinated Dinitrogen. I. Vibrational Spectra of Mo/W−N2, −NNH, and −NNH2 Complexes and Quantum Chemistry Assisted Normal Coordinate Analysis

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Infrared and Raman spectra of [M(N(2))(2)(dppe)(2)] (M = W, Mo) and the two protonated derivatives [WF(NNH)(dppe)(2)] and [WF(NNH(2))(dppe)(2)](+) (dppe = 1,2-bis(diphenylphosphino)ethane) are presented. Using isotope substituted compounds ((15)N and D) the vibrations of the Y-M-N(2)H(x)() (x = 0, 1, 2; Y = N(2), F) central unit are identified, in particular the M-N and N-N stretching modes. In case of the monoprotonated systems, an equilibrium between metal- and nitrogen-protonated species exists that is clearly detectable in the IR spectra. Making use of theoretical force fields, a quantum chemistry assisted normal coordinate analysis (QCA-NCA) is performed for all three tungsten systems showing very good agreement with experimental frequencies. The resulting force constants for the metal-N and N-N bonds offer quantitative insight into the change of M-N and N-N bond strengths during protonation of dinitrogen bound end-on terminally to transition metals. The salient feature of this "asymmetric" protonation pathway is the strengthening of the metal-N bond going along with each protonation step whereas the N-N bond is weakened at the same time.