To Split or Not to Split: [AsCCAs]-Coordinated Mo, W, and Re Complexes and Their Reactivity toward Molecular Dinitrogen

Abstract: Molybdenum, tungsten, and rhenium halides bearing a 2,2′-( i Pr 2 As) 2 -substituted diphenylacetylene ([AsCCAs], 1-As) were prepared and reduced under an atmosphere of dinitrogen in order to activate the latter substrate. In the case of molybdenum, a diiodo (2-As) and a triiodo molybdenum precursor (5) were equally suited for reductive N 2 splitting, which led to the isolation of [AsCCAs]Mo�N(I) (3-As) in each case. For tungsten, [AsCCAs]-WCl 3 (6) was reduced under N 2 to afford {[AsCCAs]WCl 2 } 2 (N 2 ) (7)… Show more

“…Under an atmosphere of N 2 , green solutions of 2b were found to rapidly turn yellowish to afford a μ-(η 1 :η 1 )-N 2 -bridged dimer ( 4 ) in nearly quantitative yields (see Figure ). Numerous attempts to further reduce 4 using harsh reductants (KC 8 , Na/K, or K/KI), however, were unsuccessful, and the initially expected nitride was detectable by neither NMR nor IR spectroscopy. Along these lines, it needs to be mentioned that nitrides of type 3 and N 2 -dimers of type 4 are easily distinguishable by 183 W– 1 H HMBC NMR spectroscopy and by comparative IR analysis as illustrated in Figure .…”

Synthesis of Collidine from Dinitrogen via a Tungsten Nitride

“…Under an atmosphere of N 2 , green solutions of 2b were found to rapidly turn yellowish to afford a μ-(η 1 :η 1 )-N 2 -bridged dimer ( 4 ) in nearly quantitative yields (see Figure ). Numerous attempts to further reduce 4 using harsh reductants (KC 8 , Na/K, or K/KI), however, were unsuccessful, and the initially expected nitride was detectable by neither NMR nor IR spectroscopy. Along these lines, it needs to be mentioned that nitrides of type 3 and N 2 -dimers of type 4 are easily distinguishable by 183 W– 1 H HMBC NMR spectroscopy and by comparative IR analysis as illustrated in Figure .…”

Synthesis of Collidine from Dinitrogen via a Tungsten Nitride

Coordination chemistry of ligands bearing heavy group 14 and 15 elements: Comparative analysis of their influence on transition metal chemistry