Explain the bonding in metal carbonyls.
(N/A) Homoleptic carbonyls are those compounds in which only carbonyl ligands are present.
These compounds are formed by most of the transition metals. These carbonyls have simple,well-defined structures. $[Ni(CO)_4]$,$[Fe(CO)_5]$,and $[Cr(CO)_6]$ have tetrahedral,trigonal bipyramidal,and octahedral structures,respectively.
Decacarbonyldimanganese $(0)$ is formed by the $Mn-Mn$ bond between two square pyramidal $[Mn(CO)_5]$ units. In octacarbonyldicobalt $(0)$,there is a $Co-Co$ bond bridged by two $CO$ groups.
In metal carbonyls,the metal-carbon bond possesses both $\sigma$ and $\pi$ character. The $M-C$ $\sigma$ bond is formed by the donation of lone pairs of electrons from the carbonyl carbon into the vacant orbitals of the metal.
The $M-C$ $\pi$ bond is formed by the donation of electrons from the filled $d$-orbitals of the metal into the vacant $\pi^*$ antibonding orbitals of $CO$. The metal-to-ligand bonding creates a synergic effect,which strengthens the bond between the metal and $CO$.
These compounds are formed by most of the transition metals. These carbonyls have simple,well-defined structures. $[Ni(CO)_4]$,$[Fe(CO)_5]$,and $[Cr(CO)_6]$ have tetrahedral,trigonal bipyramidal,and octahedral structures,respectively.
Decacarbonyldimanganese $(0)$ is formed by the $Mn-Mn$ bond between two square pyramidal $[Mn(CO)_5]$ units. In octacarbonyldicobalt $(0)$,there is a $Co-Co$ bond bridged by two $CO$ groups.
In metal carbonyls,the metal-carbon bond possesses both $\sigma$ and $\pi$ character. The $M-C$ $\sigma$ bond is formed by the donation of lone pairs of electrons from the carbonyl carbon into the vacant orbitals of the metal.
The $M-C$ $\pi$ bond is formed by the donation of electrons from the filled $d$-orbitals of the metal into the vacant $\pi^*$ antibonding orbitals of $CO$. The metal-to-ligand bonding creates a synergic effect,which strengthens the bond between the metal and $CO$.
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In the cobalt-carbonyl complex: $[Co_{2}(CO)_{8}]$,the number of $Co-Co$ bonds is "$X$" and the number of terminal $CO$ ligands is "$Y$". Find the value of $X + Y$.
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The correct statement$(s)$ regarding the binary transition metal carbonyl compounds is (are) (Atomic numbers: $Fe = 26, Ni = 28$)
$A$. Total number of valence shell electrons at metal centre in $Fe(CO)_5$ or $Ni(CO)_4$ is $16$
$B$. These are predominantly low spin in nature
$C$. Metal-carbon bond strengthens when the oxidation state of the metal is lowered
$D$. The carbonyl $C-O$ bond weakens when the oxidation state of the metal is increased
$A$. Total number of valence shell electrons at metal centre in $Fe(CO)_5$ or $Ni(CO)_4$ is $16$
$B$. These are predominantly low spin in nature
$C$. Metal-carbon bond strengthens when the oxidation state of the metal is lowered
$D$. The carbonyl $C-O$ bond weakens when the oxidation state of the metal is increased
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