Metal carbido complex

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A metal carbido complex is a coordination complex that contains the ligand C. Carbido complexes are a molecular subclass of carbides, which are prevalent. Carbido complexes represent models for intermediates in Fischer–Tropsch synthesis and related catalytic processes. They are also used as precursors for the synthesis of more complicated carbides.[1] They are analogous to metal nitrido complexes.

Carbido clusters[]

Structure of Fe5C(CO)15.[2]

Most molecular carbido complexes are clusters, usually featuring carbide as a six-fold bridging ligand. Examples include [Rh6C(CO)15]2-,[3] and [Ru6C(CO)16]2−.[4] The iron carbonyl carbides exist not only in the encapsulated carbon ([Fe6C(CO)16]2−) but also with exposed carbon centres as in Fe5C(CO)15 and Fe4C(CO)13.[5]

Clusters without CO are also known.

The complex [Au6C(PPh3)6]2+, containing a carbon-gold core.

Doubly bridging carbide ligands[]

Bridging carbido ligands can be subdivided into three classes, called cumulenic, metallocarbyne, and polar covalent.[6] Cumulenic compounds generally bridge two metal atoms of the same element and are symmetrical.[7] However, there are exceptions to this.[8]

Terminal carbide ligands[]

In rare cases, carbido ligands are terminal. One example is RuC(PCy3)2Cl2 with a Ru-C distance of 163 pm, typical for a triple bond.[9] The complex can be obtained by metathesis of vinyl acetate to give [Ru(CH-p-C6H4Me)(PCy3)2Cl2] results in a metastable Ru(Cl2)(PCy3)2C2HOAc complex, which eliminates acetic acid.[10]

Synthesis of a terminal carbido complex.

The "naked" carbido ligand is weakly basic, forming complexes with other metal centers. The C-M bond is typically found to be around 1.65 angstroms. The 13CNMR resonance values for the carbido carbons vary widely, but range from δ211-406.[11] Another example of a terminal carbido complex is Li[MoC(NR2)3] (Mo-C distance of 172 pm), which forms upon deprotonation of the methylidyne precursor.[12]

Cumulenic
LnM=C=M'Ln
Metallacarbyne
LnM≡C-M'Ln
Polar covalent
LnM≡C:→M'Ln

Three classes of
binuclear carbido ligands:
cumulenic, metallacarbyne,
and polar covalent.


See also[]

References[]

  1. ^ Takemoto, Shin; Matsuzaka, H (2012). "Recent advances in the chemistry of ruthenium carbido complexes". Coordination Chemistry Reviews. 256 (5–8): 574–588. doi:10.1016/j.ccr.2011.10.025.
  2. ^ Emile H. Braye, Lawrence F. Dahl, Walter. Hubel, Dale L. Wampler (1962). "The Preparation, Properties and Structure of the Iron Carbonyl Carbide Fe5(CO)15C". J. Am. Chem. Soc. 84 (24): 4633–4639. doi:10.1021/ja00883a004.CS1 maint: uses authors parameter (link)
  3. ^ S. Martinengo, D. Strumolo, P. Chini, "Dipotassium μ6-Carbido-Nona-μ-Carbonyl-Hexacarbonylhexarhodate(2-) K2[Rh6(CO)6(μ-CO)9-μ-C]" Inorganic Syntheses 1980; 20: 212–215 doi:10.1002/9780470132517.ch48
  4. ^ Cariati, Elena; Dragonetti, Claudia; Lucenti, Elena; Roberto, Dominique (2004). Tri- and Hexaruthenium Carbonyl Clusters. Inorganic Syntheses. 34. p. 210. doi:10.1002/0471653683.ch5. ISBN 9780471653677.
  5. ^ Hill, Ernestine W.; Bradley, John S. (1990). Tetrairon Carbido Carbonyl Clusters. Inorganic Syntheses. 27. pp. 182–188. doi:10.1002/9780470132586.ch36. ISBN 9780470132586.
  6. ^ Hill, Anthony; Sharma, Willis (2012). "Heterodinuclear Bridging Carbido and Phosphocarbyne Complexes". Organometallics. 31 (7): 2538–2542. doi:10.1021/om201057c.
  7. ^ Mansuy, D (1980). "New iron-poriphyrin complexes with metal-carbon bond- biological implications". Pure Appl. Chem. 52 (3): 681–690. doi:10.1351/pac198052030681.
  8. ^ Solari, E; Antonijevic, S.; Gauthier, S.; Scopelliti, R.; Severin, K. (2007). "Formation of a Ruthenium μ-Carbide Complex with Acetylene as the Carbon Source". Eur. J. Inorg. Chem. 2007 (3): 367–371. doi:10.1002/ejic.200600991.
  9. ^ Carlson, Robert G.; Gile, Melanie A.; Heppert, Joseph A.; Mason, Mark H.; Powell, Douglas R.; Vander Velde, David; Vilain, Joseph M. (2002). "The Metathesis-Facilitated Synthesis of Terminal Ruthenium Carbide Complexes: A Unique Carbon Atom Transfer Reaction". Journal of the American Chemical Society. 124 (8): 1580–1581. doi:10.1021/ja017088g. PMID 11853424.
  10. ^ Caskey, Stephen (11 November 2005). "Two General Routes to Terminal Carbido Complexes". J. Am. Chem. Soc. 127 (48): 16750–16751. doi:10.1021/ja0453735. PMID 16316197.
  11. ^ Hejl, A.; Trnka, T. M.; Day, M. W.; Grubbs, R. H. (2002). "Terminal ruthenium carbido complexes as sigma-donor ligands" (PDF). Chem. Commun. 21 (21): 2524–2525. doi:10.1039/b207903h.
  12. ^ Peters, Jonas C.; Odom, Aaron L.; Cummins, Christopher C. (1997). "Terminal molybdenum carbide prepared by methylidyne deprotonation". Chem. Commun. (20): 1995–1996. doi:10.1039/A704251E. S2CID 97739805.
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