J. Dupont et al., THE TRANS-CHLOROPALLADATION REACTION OF PROPARGYL AMINES AND THIOETHERS - X-RAY CRYSTAL-STRUCTURE OF TRANS-[PD-TRANS-C(PH)=C(CL)CH(ME)S(I-PR)(CL)(PY)], Organometallics, 16(11), 1997, pp. 2386-2391
The reaction of the propargyl amines R-1-C equivalent to CCH(R-2)NMe(R
-3) and thioethers R-1-C equivalent to CCH(R-2)SR4 (R-1 = Me, n-Bu, Ph
; R-2 = H, Me; R-3 = Me, bn; and R-4 = Me, i-Pr, Ph) with Li2PdCl4 in
methanol affords the air-stable five-membered palladocyclic compounds
[Pd-C(R-1)=C-(C-1)CH(R-2)NMe(R-3)(u-Cl)](2) and [Pd-C(R-1)=C(Cl)CH(R-2
)SR4(u-Cl)](2), respectively, resulting formally from the trans nucleo
philic addition of the chlorine anion onto the C equivalent to C bond.
On the other hand, alkynes with more sterically demanding groups (R-1
= t-Bu or SiMe3) only form adducts of the type PdCl2(alkyne)(2). Unde
r the same reaction conditions, the terminal alkynes (R-1 = H) afford
analogous five-membered palladocyclic compounds in very low yields and
an ill-defined mixture of organic/organometallic products. However, t
he treatment of these terminal alkynes with catalytic amounts of palla
dium(II) salts and copper dichloride in the presence of lithium chlori
de and water yields (2-chloroallyl)amines and thioethers in good yield
s.