STRUCTURAL AND TC-99 NMR INVESTIGATIONS OF COMPLEXES WITH FAC-[TC(CO)(3)](- SYNTHESIS AND X-RAY STRUCTURE OF THE COMPLEXES FAC-[TC(9-ANE-S-3)(CO)(3)]BR, FAC-[TC-2(TOSYLATE)(2)(18-ANE-S-6)(CO)(6)], AND FAC-[TC-2(20-ANE-S-6-OH)(CO)(6)][TOSYLATE](2)() MOIETIES AND MACROCYCLIC THIOETHERS OF VARIOUS RING SIZES )

Starting originally from the organometallic precursor [NEt4](2)[TcBr3( CO)(3)] (1b), substitution reactions were performed with the macrocycl ic thioethers 1,4,7-trithiacyclononane (9-ane-S-3), 1,4,7,10,13,16-hex athiacyclooctadecane (18-ane-S-6), and 3,6,9,13,16,1 9-hexathiacycloic osanol (20-ane-S-6-OH). The corresponding complexes fac- [Tc(9-ane-S-3 )(CO)(3)] Br (2), fac- [Tc-2(tosylate)(2)(18-ane-S-6)(CO)(6)] (3), and fac-[Tc-2(20-ane-S-6-OH)(CO)(6)] -[tosylate](2) (5) were isolated in good yields and characterized spectroscopically by IR,H-1, Tc-99 NMR, and X-ray diffraction methods. In the case of 18-ane-S-6 and 20-ane-S- 6-OH the formation of the 1:2 as well as the 1:1 complex could be obse rved in the Tc-99 NMR experiment, depending on the ligand to metal rat io. Complex 2 crystallizes in the monoclinic space group P2(1)/c, a = 14.79(2) Angstrom, b = 11.691(2) Angstrom, c = 16.94(2) Angstrom, beta = 94.88(6)degrees, Z = 8. The tripodal ligand is coordinated through the sulfur atoms to the metal center, forming three favorable five-mem bered chelate rings. Complex 3 crystallizes in the monoclinic space gr oup C2/c, a = 26.073(4) Angstrom, b = 9.288(1) Angstrom, c 17.898(3) A ngstrom, beta = 99.84(1)degrees, Z = 4. The binuclear unit is formed b y two fac-[Tc(tosylate)(CO)3(]) moieties which are trans, bidentate co ordinated to the macrocyclic ligand. Compound 5 crystallizes in the mo noclinic space group Pc, a = 25.737(4) Angstrom, b = 14.009(1) Angstro m, c = 26.479(3) Angstrom, beta = 149.56(2)degrees, Z = 4. In the case of the dicationic compound 5, the two Tc(I) centers are tripodal, cis coordinated toward the thia crown ether. A detailed analysis of the r ing conformation in the solid state structure explained to a certain e xtent the formation of only one isomer (trans in the case of 3 and cis in the case of 5, respectively) during the substitution reaction.