What is the Difference Between Organometallic Compounds and Metal Carbonyls?
🆚 Go to Comparative Table 🆚Organometallic compounds and metal carbonyls are both coordination complexes containing a metal center. The key difference between them lies in the nature of the ligands bonded to the metal center:
- Organometallic compounds have one or more metal-carbon covalent bonds. These compounds contain covalent bonds between carbon and metal atoms, with some exceptions, such as metal-cyano bonds, which are not considered organometallic bonds. Examples of organometallic compounds include Grignard's reagent, Zeise's salt, and Ferrocene.
- Metal carbonyls are coordination complexes with transition metal atoms bonded to carbon monoxide ligands. These compounds are transition metal complexes of carbon monoxide, containing a metal–carbon bond. The carbonyl (CO) ligand is unsaturated, allowing it to σ-donate to the metal and π-back donate to the CO ligand. Metal carbonyl complexes are usually stabilized by metal centers in low oxidation states.
In summary, while both organometallic compounds and metal carbonyls are coordination complexes with a metal center, the ligands in organometallic compounds are bonded to the metal through a metal-carbon covalent bond, whereas the ligands in metal carbonyls are carbon monoxide molecules bonded to the metal through a metal-carbon bond.
Comparative Table: Organometallic Compounds vs Metal Carbonyls
Here is a table comparing organometallic compounds and metal carbonyls:
| Property | Organometallic Compounds | Metal Carbonyls |
|---|---|---|
| Definition | Organometallic compounds are complex compounds containing one or more metal-carbon covalent bonds. | Metal carbonyls are coordination complexes formed by transition metals and carbon monoxide ligands. |
| Bonding | Contain covalent bonds between carbon and metal atoms. | Contain a metal center bound to carbon monoxide ligands. |
| Examples | Grignard Reagent (RMgX), Gilman Reagent (R2CuLi), Dimethylmagnesium (Me2Mg), Triethylborane (Et3B), Ferrocene, Cobaltocene. | Nickel carbonyl (Ni(CO)4), Iron pentacarbonyl (Fe(CO)5), Chromium hexacarbonyl (Cr(CO)6). |
| Applications | Organometallic compounds are used in organic synthesis, as catalysts, and in the production of drugs, polymers, and other chemical products. | Metal carbonyls are used as catalysts, in organic synthesis, and as precursors for the production of other coordination complexes. |
Organometallic compounds are complex compounds containing one or more metal-carbon covalent bonds, while metal carbonyls are coordination complexes formed by transition metals and carbon monoxide ligands. The key difference between the two is the type of bonding: organometallic compounds have covalent bonds between carbon and metal atoms, whereas metal carbonyls have a metal center bound to carbon monoxide ligands. Some examples of organometallic compounds include Grignard Reagent, Gilman Reagent, and Dimethylmagnesium, while examples of metal carbonyls include Nickel carbonyl, Iron pentacarbonyl, and Chromium hexacarbonyl. Both types of compounds have various applications in organic synthesis, catalysis, and the production of other chemical products.
- Coordination Compound vs Organometallic Compound
- Carbonyl vs Carboxyl
- Carbonyl vs Ketone
- Carbonyl vs Nitrosyl Complexes
- Covalent Organic vs Metal Organic Framework
- Organic Compound vs Inorganic Compound
- Metal Carbonate vs Metal Hydrogen Carbonate
- Acyclic vs Cyclic Organic Compounds
- Carbene vs Carbanion
- Carbocation vs Carbanion
- Terminal vs Bridging Carbonyls
- Ionic vs Covalent Compounds
- Ionic vs Molecular Compounds
- Homocyclic vs Heterocyclic Compounds
- Ionic Covalent vs Metallic Hydrides
- Alloy vs Intermetallic Compound
- Carbonyl Iron vs Ferrous Sulfate
- Metal vs Nonmetal Oxides
- Molecules vs Compounds