REACTIONS OF (PME(3))(4)RU(C2H4) AND (DMPE)(2)RU(C2H4) WITH WEAK PROTON-DONATING ELECTROPHILES HX (X=OAR, SAR, NHPH, PHPH) - SYNTHESIS OF COMPLEXES WITH METAL HETEROATOM SINGLE BONDS
Mj. Burn et al., REACTIONS OF (PME(3))(4)RU(C2H4) AND (DMPE)(2)RU(C2H4) WITH WEAK PROTON-DONATING ELECTROPHILES HX (X=OAR, SAR, NHPH, PHPH) - SYNTHESIS OF COMPLEXES WITH METAL HETEROATOM SINGLE BONDS, Organometallics, 14(1), 1995, pp. 137-150
Reactions of the ruthenium ethylene complexes (PMe(3))(4)Ru(C2H4) and
(DMPE)(2)Ru(C2H4) with a variety of HX compounds (X = SAr, OAr, PPhH,
NHPh and Ph) have been explored. In all cases; the tetrakis(trimethylp
hosphine) complex reacted to form ethylene and the hydride species, (P
Me(3))(4)Ru(H)(X). However, parallel studies with the related material
(DMPE)(2)Ru(C2H4) suggest that these complexes react as strained meta
llacycles toward HX. Thus, the bis(DMPE) analog gave the ethyl species
(DMPE)(2)Ru(X)(CH2CH3) in its reactions with HSAr and PH(2)Ph, and th
ermolysis of these ethyl complexes led to the formation of the hydride
s and free ethylene. The reaction of the DMPE ethylene complex with p-
cresol allowed isolation of an intermediate cationic ethylene hydride
species, but this was converted rapidly to the corresponding aryloxy h
ydride complex, even at room temperature. With NH(2)Ph the bis(DMPE) c
omplex formed only the corresponding hydride species. In an attempt to
generate an acetylene complex that similarly might react as a straine
d metallacyclopropene, (PMe(3))(4)Ru(CH=CH2)(2) was generated from the
reaction of CH=CH2MgBr with (PMe(3))(4)RuCl2. However, thermolysis of
the divinyl species led only to the formation of the butadiene comple
x, (PMe(3))(3)Ru(C4H6).