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Issue 4, 2014
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NO2 bond cleavage by MoL3 complexes

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Abstract

The cleavage of one N–O bond in NO2 by two equivalents of Mo(NRAr)3 has been shown to occur to form molybdenum oxide and nitrosyl complexes. The mechanism and electronic rearrangement of this reaction was investigated using density functional theory, using both a model Mo(NH2)3 system and the full [N(tBu)(3,5-dimethylphenyl)] experimental ligand. For the model ligand, several possible modes of coordination for the resulting complex were observed, along with isomerisation and bond breaking pathways. The lowest barrier for direct bond cleavage was found to be via the singlet η2-N,O complex (7 kJ mol−1). Formation of a bimetallic species was also possible, giving an overall decrease in energy and a lower barrier for reaction (3 kJ mol−1). Results for the full ligand showed similar trends in energies for both isomerisation between the different isomers, and for the mononuclear bond cleavage. The lowest calculated barrier for cleavage was only 21 kJ mol−1via the triplet η1-O isomer, with a strong thermodynamic driving force to the final products of the doublet metal oxide and a molecule of NO. Formation of the full ligand dinuclear complex was not accompanied by an equivalent decrease in energy seen with the model ligand. Direct bond cleavage via an η1-O complex is thus the likely mechanism for the experimental reaction that occurs at ambient temperature and pressure. Unlike the other known reactions between MoL3 complexes and small molecules, the second equivalent of the metal does not appear to be necessary, but instead irreversibly binds to the released nitric oxide.

Graphical abstract: NO2 bond cleavage by MoL3 complexes

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Publication details

The article was received on 16 Sep 2013, accepted on 01 Nov 2013 and first published on 01 Nov 2013


Article type: Paper
DOI: 10.1039/C3DT52554F
Citation: Dalton Trans., 2014,43, 1620-1629
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    NO2 bond cleavage by MoL3 complexes

    M. F. Shaw, N. Mahdizadeh Ghohe, A. Ariafard, N. J. Brookes, R. Stranger and B. F. Yates, Dalton Trans., 2014, 43, 1620
    DOI: 10.1039/C3DT52554F

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