Transition Metal Isocyanide Complexes on:
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Technetium (99mTc) sestamibi is used in nuclear medicine imaging.
Transition metal isocyanide complexes are
Cationic complexes are susceptible to nucleophilic attack at carbon. In this way, the first metal carbene complexes where prepared. Because isocyanides are both acceptors and donors, they stabilize a broader range of oxidation states than does CO. This advantage is illustrated by the isolation of the homoleptic vanadium hexaisocyanide complex in three oxidation states, i.e., (CNC6H3-2,6-Me2)6sup>n for n = -1, 0, +1.
Because isocyanides are more basic donors ligands than CO, their complexes are susceptible to oxidation and protonation. Thus, is easily protonated, whereas its counterpart is not:
:Fe(CNR)5 + H+ → FeL5sup>+
:Fe(CO)5 + H+ → no reaction
Some electron-rich isocyanide complexes protonate at N to give aminocarbyne complexes:
:LnM-CNR + H+ → nM≡CN(H)Rsup>+
Isocyanides sometimes insert into metal-alkyl bonds to form iminoacyls.
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coordination compound
A coordination complex consists of a central atom or ion, which is usually metallic and is called the ''coordination centre'', and a surrounding array of bound molecules or ions, that are in turn known as ''ligands'' or complexing agents. Many ...
s containing isocyanide
An isocyanide (also called isonitrile or carbylamine) is an organic compound with the functional group –. It is the isomer of the related nitrile (–C≡N), hence the prefix is ''isocyano''.IUPAC Goldboo''isocyanides''/ref> The organic fragme ...
ligands. Because isocyanides are relatively basic, but also good pi-acceptors, a wide range of complexes are known. Some isocyanide complexes are used in medical imaging
Medical imaging is the technique and process of imaging the interior of a body for clinical analysis and medical intervention, as well as visual representation of the function of some organs or tissues (physiology). Medical imaging seeks to rev ...
.
Scope of isocyanide ligands
Several thousand isocyanides are known, but the coordination chemistry is dominated by a few ligands. Common isonitrile ligands aremethyl isocyanide
Methyl isocyanide or isocyanomethane is an organic compound and a member of the isocyanide family. This colorless liquid is isomeric to methyl cyanide (acetonitrile), but its reactivity is very different. In contrast to the faintly sweet, ethereal ...
, tert-butyl isocyanide, phenyl isocyanide, and cyclohexylisocyanide.
Isocyanides are electronically similar to CO, but for most R groups, isocyanides are superior Lewis bases and weaker pi-acceptors. Trifluoromethylisocyanide
Trifluoromethylisocyanide is the chemical compound with the formula CF3NC. It is an isocyanide and a fluorocarbon. Polymerisation occurs even at temperatures below its boiling point of −80 °C. As a ligand in coordination chemistry, this ...
is the exception, its coordination properties are very similarly to those of CO.
Because the CNC linkage is linear, the cone angle of these ligands is small, so it is easy to prepare polyisocyanide complexes. Many complexes of isocyanides show high coordination numbers, e.g. the eight-coordinate cation . Very bulky isocyanide ligands are also known, e.g. C6H3-2,6-Ar2-NC (Ar =aryl).
Di- and triisocyanide ligands are well developed, e.g., (CH2)n(NC)2. . Usually steric factors force these ligands to bind to two separate metals, i.e., they are binucleating ligands. Chelating diisocyanide ligands require elaborate backbones.
Synthesis
Because of their low steric profile and high basicity, isocyanide ligands often install easily, e.g. by treating metal halides with the isocyanide. Many metal cyanides can be N-alkylated to give isocyanide complexes.Reactions
Typically, isocyanides are spectator ligands, but their reduced and oxidized complexes can prove reactive by virtue of the unsaturated nature of the ligand
Cationic complexes are susceptible to nucleophilic attack at carbon. In this way, the first metal carbene complexes where prepared. Because isocyanides are both acceptors and donors, they stabilize a broader range of oxidation states than does CO. This advantage is illustrated by the isolation of the homoleptic vanadium hexaisocyanide complex in three oxidation states, i.e., (CNC6H3-2,6-Me2)6sup>n for n = -1, 0, +1.
Because isocyanides are more basic donors ligands than CO, their complexes are susceptible to oxidation and protonation. Thus, is easily protonated, whereas its counterpart is not:
:Fe(CNR)5 + H+ → FeL5sup>+
:Fe(CO)5 + H+ → no reaction
Some electron-rich isocyanide complexes protonate at N to give aminocarbyne complexes:
:LnM-CNR + H+ → nM≡CN(H)Rsup>+
Isocyanides sometimes insert into metal-alkyl bonds to form iminoacyls.
Structure and bonding
Isocyanide complexes often mirror the stoichiometry and structures of metal carbonyls. Like CO, isocyanides engage in pi-backbonding. The M-C-N angle provides some measure of the degree of backbonding. In electron-rich complexes, this angle is usually deviates from 180°. Unlike CO, cationic and dicationic complexes are common. RNC ligands are typically terminal, but bridging RNC ligands are common. Bridging isocyanides are always bent. General trends can be appreciated by inspection of the homoleptic complexes of the first row transition metals.Homoleptic complexes
IR spectroscopy
The νC≡N band in isocyanides is intense in the range of 2165–2110 cm−1. The value of νC≡N is diagnostic of the electronic character of the complex. In complexes where RNC is primarily a sigma donor ligand, νC≡N shifts to higher energies vs free isocyanide. Thus, for , νC≡N = 2152, 2120 cm−l. In contrast, for the electron-rich species Fe2(CNEt)9, νC≡N = 2060, 1920, 1701, 1652 cm−l.See also
*Cyanometalate
Cyanometallates or cyanometalates are a class of coordination compounds, most often consisting only of cyanide ligands. Most are anions. Cyanide is a highly basic and small ligand, hence it readily saturates the coordination sphere of metal ions. ...
- coordination compounds containing cyanide ligands (coordinating via C)
* Transition metal nitrile complexes
Transition metal nitrile complexes are coordination compounds containing nitrile ligands. Because nitriles are weakly basic, the nitrile ligands in these complexes are often labile.
Scope of nitriles
Typical nitrile ligands are acetonitrile, prop ...
- coordination compounds containing nitrile ligands, which are isomers of isonitriles
References