Abstract

Reactions between the bromo(alkylidyne)tungsten complex [W(CR) Br(CO)4](R = C6H4Me-4) and the salts Na2[7,8-C2B9H9R′2](R′= Me or H), followed by treatment with [N(PPh3)2]Cl afford the compounds [N(PPh3)2][W(CR)(CO)2(η5-C2B9H9R′2)](1a, R′= Me; 1b, R′= H). The salt [NEt4][W(CMe)(CO)2(η5-C2B9H9Me2)](1c) was prepared from [W(CMe)Br(CO)4] and Tl2[7,8-C2B9H9Me2], with subsequent addition of [NEt4]Cl. Treatment of (1a) or (1b) with [AuCl(PPh3)], in the presence of TIPF6 yields the gold–tungsten complexes [AuW(µ-CR)(CO)2( PPh3)(η5-C2B9H9R′2)](2a, R′= Me; 2b, R′= H). Similarly, (1c) with [AuCl( PPh3)] affords [AuW(µ-CMe)(CO)2( PPh3)(η5-C2B9H9Me2)](2c). The structure of (2a) has been established by X-ray diffraction. The Au–W bond [2.780(8)A] is asymmetrically bridged by the CC6H4Me-4 group [µ-C–Au 2.19(3), µ-C–W 1.88(3)A]. Treatment of [AuCl(tht)](tht = tetrahydrothiophene) with (1a) gives the salt [N( PPh3)2][AuW2(µ-CR)2(CO)4(η5-C2B9H9Me2)2](3). The rhodium–tungsten compound [RhW(µ-CR)(CO)2(PPh3)2(η5-C2B9H9Me2)](4a) has been prepared by two routes: from the reaction between (1a) and [RhCl(PPh3)3] or from (1a) and [Rh(PPh3)2(cod)][PF6](cod = cyclo-octa-1,5-diene). The latter with (1b) yields [RhW(µ-CR)(CO)2(PPh3)2(η5-C2B9H11)](4b). Compounds (1a) and (1b) react with [Rh(PPh3)2(nbd)][PF6][nbd = norbornadiene (bicyclo[2.2.1] hepta-2,5-diene)] to give the complexes [RhW(µ-CR(CO)2(PPh3)2{η5-C2B9(C7H9)H8R′2}][5a,R′= Me; 5b, (two isomers), R′= H]. The structures of (4a) and (5a) have been established by X-ray diffraction. Both molecules have Y-shaped WRhP2 cores with the Rh–W bonds [4a, 2.681 (l), 5a, 2.662(2)A] bridged by CC6H4Me-4 groups [4a, µ-C–Rh 2.068(5), µ-C–W 1.880(6); 5a, µ-C-Rh 2.12(2), µ-C–W 1.84(2)A], and semibridged by a CO ligand [W–C-O, 4a, 160.2(5); 5a, 156( 1 )°] In (4a), the tungsten atom is ligated by a terminal CO group and the η5-C2B9H9Me2 cage. In (5a), the tungsten also carries a terminal CO group but the carbaborane ligand has a C7H9[nortricyclene (tricyclo[2.2.1.02,6] heptane)] fragment attached to the unique boron atom in the open face of the cage. Thus in the formation of (5a) an unprecedented hydroboration reaction has occurred, a cage B–H bond having added to the norbornadiene ligand with concomitant C–C bond formation. In contrast, treatment of the norbornadiene-containing salt (Rh(dppe)(nbd)[PF6](dppe = Ph2PCH2CH2PPh2) with (1a) gives [RhW(µ-CR)(CO)2(dppe)(η5-C2B9H9Me2)](4c). Reactions of (4a) with PEt3, PMe2Ph, dppe, and CO are reported. Examination of the 13C-{1H} and 31P-{1H} n.m.r. spectra of the complexes (4) and (5) reveal that they undergo dynamic behaviour in solution and possible mechanisms are described and discussed.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.