Abstract

Under appropriate conditions the reaction of [{Mo(η5-C5H5)(NO)X}2(µ-X)2][X = Cl (1), Br (2), or I (3)] with Al2Me6, gives the new (probably dimeric) methyl complexes [{MoMe(η5-C5H5)(NO)}2(µ-X)2](4)–(6) which react with an equimolar amount of different ligands to give the monomeric neutral complexes [MoMe(η5-C5H5)(NO)XL][L = tetrahydrothiophene (tht), X = Br (7); L = PPh3, X = Cl (8), Br (9), or I (10); L = OPPh3, X = Cl (11) or Br (12)] and the anionic complex [PPh4][MoMe (η5-C5H5)(NO)Br2](13). One of the routes to prepare complexes (7)–(12) gives instead of (12) a solid, (14), which contains a cation of variable composition and the same anion as in (13). The complexes (5) and (9) react with Tl(C5H5) to give the known [MoMe(ηn-C5H5)2(NO)](the value of n is unknown). The molybdenum–carbon bond in (9) suffers cleavage only by addition of highly concentrated solutions of strong protonic acids to give the neutral complex [Mo(η5-C5H5)(NO) Br2(PPh3)] with HBr, or the dicationic complex [Mo(η5-C5H5)(NO)(PPh3)2L]2+[L = Me2CO (15)] with HBF4. The same compound (9) reacts with LiR to give dialkyl complexes [MoMe(R)(η5-C5H5)(NO)(PPh3)][R = Me (16), C2Ph (17), or C6F5(18)]. The structure of complex (9) has been determined by X-ray diffraction methods. Crystals are monoclinic, space group P21/a with a= 18.778(5), b= 14.713(5), c= 8.354(3)A, β= 102.77(2)°, and Z= 4. The structure has been solved from diffractomer data by Patterson and Fourier methods and refined by full-matrix least-squares methods to R= 0.036 for 2 532 observed reflections. The structure is of the ‘four-legged piano stool’ type with the PPh3 and Me ligands in trans positions. The Mo–N and N–O bond distances [1.814(6) and 1.115(8)A respectively] indicate considerable Mo–NO back-bonding. The Mo–N–O group is nearly linear [171.3(6)°].

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