Reaction of the bis-isonitrile complex [Mo2Cp2(μ-SMe)3(xylNC)2](BF4) (2b) with NaOH (suspension)
under reflux in tetrahydrofuran produced, in quantitative yields, the μ-alkylidyne species [Mo2Cp(μ-SMe)3{μ-(η5-C5H4)(xylN)CN(xyl)C}] (4), in which a deprotonated Cp and both isonitrile ligands of
2b are now linked by new C−C and C−N bonds. Under prolonged reflux (72 h) in tetrahydrofuran 2b
with either NaOH (suspension) or (Me4N)OH (in MeOH) in the presence of excess isonitrile RNC (R =
xyl, But) was converted in high yields into the mixed (μ-alkylidyne)(μ-amino-oxycarbene) derivatives
[Mo2Cp(μ-SMe)2{μ-(η5-C5H4)(xylN)CN(xyl)C}{μ-η1(O),η1(C)-OCNHR}] (R = xyl (5a1), R = But (5b2))
and [Mo2Cp(μ-SMe)2{μ-(η5C5H4) (xylN)CN(xyl)C}{μ-η1(O),η1(C)-OCNMeR}] (R = xyl (6a)). All these
products result from hydroxide−isonitrile coupling reactions. When the mixture of 2b, (Me4N)OH (excess),
and ButNC (excess) in tetrahydrofuran was heated under reflux for a short time (2 h), complex 5b1 was
formed in good yields. Compounds 5b1 and 5b2 are linkage isomers, which differ only in the mode of
coordination of the μ-amino-oxycarbene ligand to the Mo1−Mo2 unit; 5b1 converts into 5b2 on prolonged
heating. Reaction of the secondary amino-oxycarbene derivative 5a1 with a base (NaOH) and an alkylating
agent R‘ ‘4
NBr (R‘ ‘ = Et, Bun) afforded the corresponding tertiary(amino)-oxycarbene complexes
[Mo2Cp(μ-SMe)2{μ-(η5-C5H4)(xylN)CN(xyl)C }{μ-η1(O),η1(C)-OCNxylR‘ ‘}] [R‘ ‘ = Et (6b), Bun (6c)].
On heating a tetrahydrofuran solution of the μ-alkylidyne compound 4 with NaOH (suspension) and an
excess of either xylNC or ButNC, the mixed μ-alkylidyne and μ-amino-oxycarbene species 5a1 and 5b2
were obtained, demonstrating that 4 is an intermediate in the formation of 5a1 and 5b2 from 2b. Treatment
of the mixed isonitrile−nitrile species [Mo2Cp2(μ-SMe)3(MeCN)(xylNC)](BF4) (3), containing a labile
MeCN group, under reflux in tetrahydrofuran with NaOH (suspension) afforded quantitatively the μ-amino-oxycarbene compound [Mo2Cp2(μ-SMe)3{μ-η1(O),η1(C)-OCNHxyl}] (7). All new complexes have been
characterized by elemental analyses and spectroscopic methods, supplemented for 5a1, 5b1, 5b2, 6a,
6b, and 7 by X-ray diffraction studies.
