Metal ligand multiple bond

Metal ligand multiple bond

In Chemistry, ametal ligand multiple bond describes the interaction of certain ligands with a metal with a bond order greater than one. ["Metal-Ligand Multiple Bonds: The Chemistry of Transition Metal Complexes Containing Oxo, Nitrido, Imido, Alkylidene, or Alkylidyne Ligands" W. A. Nugent and J. M. Mayer; Wiley-Interscience, New York, 1988.] Complexes featuring multiply bonded ligands are of both scholarly and practical interest. Transition metal carbene complexes catalyze the olefin metathesis reaction. Metal oxo intermediates are pervasive in oxidation catalysis. oxygen evolving complex.:

Cautionary note

The classification of a metal ligand bond as being "multiple" bond order is ambiguous and even arbitrary because bond order is a formalism. Furthermore, the usage of multiple bonding is not uniform. Symmetry arguments suggest that most ligands engage metals via multiple bonds. The term 'metal ligand multiple bond" is often reserved for ligands of the type CRn and NRn (n = 0, 1, 2) and ORn (n = 0, 1) where R is H or an organic substituent, or pseudohalide. Historically, CO and NO+ are not included in this classification, nor are halides.

Multiple bond stabilization

Metals bound to so-called Triply bonded carbyne, imide, nitride, and oxide ligands are generally assigned to high oxidation states with low d electron counts. The high oxidation state stabilizes the highly reduced ligands . The low d electron count allow for many bonds between ligands and the metal center. A d0 metal center can accommodate up to 9 bonds without violating the 18 electron rule , whereas a d6 species can only accommodate 6 bonds.

Hybridization

A ligand described in ionic terms can bond to a metal through however many lone pairs it has available. For example many alkoxides use one of their three lone pairs to make a single bond to a metal center. In this situation the oxygen is sp3 hybridized according to valence bond theory. Increasing the bond order to two by involving another lone pair changes the hybridized at the oxygen to an sp2 center with an expected expansion in the M-O-R bond angle and contraction in the M-O bond length. If all three lone pairs are included for a bond order of three than the M-O bond distance contracts further and since the oxygen is a sp center the M-O-R bond angle is 180˚ or linear. Similarly with the imidos are commonly referred to as either bent (sp2) or linear (sp). Even the oxo can be sp2 or sp hybridized. The triply bonded oxo similar to carbon monoxide is partially positive at the oxygen atom and unreactivity towards bronsted acids at the oxygen atom. When such a complex is reduced, the triple bond can be converted to a double bond at which point the oxygen is no longer partial positive and now reactive towards acid.

Formalisms

Bonding representations

Imido ligands, also known as imides or nitrenes, most commonly form "linear six electron bonds" with metal centers. Bent imidos are a rarity limited by complexes electron count, orbital bonding availability, or some similar phenomenon. It is common to draw only two lines of bonding for all imidos. Especially the most common linear imidos with a six electron bonding interaction to the metal center. Similarly amido complexes are usually drawn with a single line even though most amido bonds involve four electrons. Alkoxides are generally drawn with a single bond although both two and four electron bonds are common. Oxo can be drawn with two lines regardless of whether four electrons or six are involved in the bond. Still its not uncommon to see six electron oxo bonds represented with three lines.

Representing oxidation states

There are two motifs to indicate a metals oxidation state based around the metal centers actual charge separation. Oxidation states up to the plus three are believed to be an accurate representation of the charge separation experienced by the metal center. For oxidation states plus four and great the oxidation state becomes more of a formalism with much of the positive charge distributed between the ligands. This distinction can expressed by using a roman numeral in upper right of the metals atomic symbol for the lower oxidation states and an Arabic number with a plus sign for the higher oxidation states. See the example below. This formalism is not rigorously followed and the use of roman numerals to represent higher oxidation states is common.

:: [MIIILn] 3+ vs. [O=M5+Ln] 3+

References

Further reading (specialized literature)

*Heidt, L.J.; Koster, G.F.; Johnson, A.H. "Experimental and Crystal Field Study of the Absorption Spectrum at 2000 to 8000 A of to Manganous Perchlorate in Aqueous Perchloric Acid" "J. Am. Chem. Soc." 1959, "80", 6471-6477.
*Rohde,J; In,J.; Lim, M.H.; Brennessel, W.W.; Bukowski, M.R.; Stubna, A.; Muonck, E.; Nam, W.; Que L.; "Crystallographic and Spectroscopic Characterization of a Nonheme Fe(IV)O Complex" "Science" "VOL 299" 1037-1039.
*Decker, A.; Rohde,J.; Que, L.; Solomon, E.I. "Spectroscopic and Quantum Chemical Characterization of the Electronic Structure and Bonding in a Non-Heme FeIVO Complex" "J. Am. Chem. Soc." 2004, "126", 5378-5379.
*Aliaga-Alcalde, N.; George, S.D.; Mienert, B.; Bill, E.; Wieghardt, K.; Neese, F. "The Geometric and Electronic Structure of [(cyclam-acetato)Fe(N)] +: A Genuine Iron(v) Species with a Ground-State Spin S=1/2" "Angew. Chem. Int. Ed." 2005, "44", 2908–2912.


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