Transition metal formyl complex

Structure of the formyl complex CpRe(PPh3)(NO)CHO. Selected distances: dHC-O = 122.1, dHC-Re = 205.5, dON-Re = 177.7 pm.[1]

In organometallic chemistry, a transition metal formyl complex is a metal complex containing one (usually) or more formyl (CHO) ligand. A subset of transition metal acyl complexes, formyl complexes can be viewed as metalla-aldehydes. A representative example is (CO)5ReCHO. The formyl is viewed as an X (pseudohalide) ligand. Metal formyls are proposed as intermediates in the hydrogenation of carbon monoxide, as occurs in the Fischer-Tropsch process.[2]

Structure and bonding

The MCHO group is planar. A C=O double bond is indicated by X-ray crystallography. A second resonance structure has a M=C double bond, with negative charge on oxygen.

Synthesis and reactions

Metal formyl complexes are often prepared by the reaction of metal carbonyls with hydride reagents:[3]

[Re(CO)6]+ + H → (CO)5ReCHO

The CO ligand is the electrophile and the hydride (provided typically from a borohydride) is the nucleophile.

Some metal formyls are produced by reaction of metal carbonyl anions with reagents that donate the equivalent of a formyl cation, such a mixed formate anhydrides.[4]

Metal formyls participate in many reactions, many of which are motivated by interest in Fischer-Tropsch chemistry. O-alkylation gives carbenoid complexes. The formyl ligand also functions as a base, allowing the formation of M-CH=O-M' linkages.[5] Decarbonylation leads to de-insertion of the carbonyl, yielding hydride complexes.[2]

References

  1. ^ Wong, Wai-Kwok; Tam, Wilson; Strouse, C. E.; Gladysz, J. A. (1979). "X-Ray crystal structure and chemical transformations of the neutral metal formyl [(η-C5H5)Re(PPh3)(NO)(CHO)]". J. Chem. Soc., Chem. Commun. (12): 530–532. doi:10.1039/C39790000530.
  2. ^ a b Gladysz, J.A. (1982). Transition Metal Formyl Complexes. Advances in Organometallic Chemistry. Vol. 20. pp. 1–38. doi:10.1016/S0065-3055(08)60519-5. ISBN 9780120311200.
  3. ^ Maity, Ayan; Teets, Thomas S. (2016). "Main Group Lewis Acid-Mediated Transformations of Transition-Metal Hydride Complexes". Chemical Reviews. 116 (15): 8873–8911. doi:10.1021/acs.chemrev.6b00034. PMID 27164024.
  4. ^ Collman, J. P.; Winter, S. R. (1973). "Isolation and Characterization of a Kinetically Stable transition Metal Formyl complex". Journal of the American Chemical Society. 95 (12): 4089–4090. doi:10.1021/ja00793a066.
  5. ^ Chen, Zilu; Schmalle, Helmut W.; Fox, Thomas; Berke, Heinz (2005). "Insertion Reactions of Hydridonitrosyltetrakis(trimethylphosphine) Tungsten(0)". Dalton Transactions (3): 580–587. doi:10.1039/b414943b. PMID 15672204.
  • v
  • t
  • e
Coordination complexes
H donors:
  • H
  • H2
B donors:
  • BR2
  • BmHn
C donors:
  • R
  • RC(O)
  • HC(O)
  • CH2=CH-CH2
  • C(CH2)3
  • CH2=CH2
  • RC2R
  • C6H4
  • CN
  • CO
  • CO2
  • C4-
  • C6R6
  • C60 & C70
  • RNC
  • =CR2
  • ≡CR
  • C5H5
  • C9H7
Si donors:
  • HnSiR4−n
  • R3Si
N donors:
P donors:
  • PR3
  • PR2
O donors:
  • H2O
  • R2O
  • RO
  • O2-
  • O2
  • CO32-/HCO3-
  • C2O42-
  • RCO2
  • acac
  • R2CO
  • ONO
  • NO3
  • C5H5NO
  • OSR2
  • SO42-
  • PO43-
  • OPR3
S donors:
  • R2NCS2
  • RS
  • R2S
  • R2C2S22-
  • SO2
  • S2O32-
  • SR2O
  • NCS-
Halide donors:
  • F
  • F2
  • Cl
  • Br
  • I