Explain with two examples each of the following: coordination entity, ligand, coordination number, coordination polyhedron, homoleptic and heteroleptic.
Solution and Explanation
(i) Coordination entity: A coordination entity is an electrically charged radical or species carrying a positive or negative charge. In a coordination entity, the central atom or ion is surrounded by a suitable number of neutral molecules or negative ions (called ligands). For example:
\([Ni(NH_3)_6]^{2+},[Fe(CN)_6]^{4+}\) = cationic complex
\([PtCl_4]^{2-},[Ag(CN)_2]^{-}\)= anionic complex
\([Ni(CO)_4],[Co(NH_3)_4Cl_2\)] = neutral complex
(ii) Ligands The neutral molecules or negatively charged ions that surround the metal atom in a coordination entity or a coordinal complex are known as ligands. For example,\(\ddot{N}H_3,H_2\ddot{O}\), \(Cl^{-} ,^{-}OH\) . Ligands are usually polar in nature and possess at least one unshared pair of valence electrons.
(iii) Coordination number:
The total number of ligands (either neutral molecules or negative ions) that get attached to the central metal atom in the coordination sphere is called the coordination number of the central metal atom. It is also referred to as its ligancy.
For example:
(a) In the complex,\(K_2[PtCl_6]\), there as six chloride ions attached to\(Pt\) in the coordinate sphere. Therefore, the coordination number of \(Pt\) is 6.
(b) Similarly, in the complex \([Ni(NH_3)_4]Cl_2\), the coordination number of the central atom \((Ni)\) is 4.
(iv) Coordination polyhedron:
Coordination polyhedrons about the central atom can be defined as the spatial arrangement of the ligands that are directly attached to the central metal ion in the coordination sphere. For example:
(a)
(b) Tetrahedral
(v) Homoleptic complexes:
These are those complexes in which the metal ion is 3bound to only one kind of a donor group. For eg:\([Co(NH_3)_6]^{3+},[ptCl_4]^{2-}\)etc.
(v) Homoleptic complexes: These are those complexes in which the metal ion is bound to only one kind of a donor group. For eg:\([Co(NH_3)_4Cl_2]^{+},[Co(NH_3)_5Cl]^{2+}\)
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Concepts Used:
Nomenclature of Coordination Compounds
Nomenclature of Coordination Compounds is important in Coordination Chemistry because of the need to have an unambiguous method of describing formulas and writing systematic names, particularly when dealing with isomers.
We can apply the following formulas:
- On the very first the central atom is listed.
- Ligands are then listed in alphabetical order and their placement in the list does not depend on their charge.
- Polydentate ligands are also listed alphabetically. In such a case of an abbreviated ligand, the first letter of the abbreviation is used to determine the position of the ligand in alphabetical order.
- The formula for the entire coordination entity is enclosed in square brackets whether charged or not. The formulas are enclosed in parentheses when ligands are polyatomic. Ligand abbreviations are also enclosed in parentheses.
- Within a coordination sphere, there should be no space between the ligands and the metal.
- When the formula of a charged coordination entity is to be written without that of the counter-ions, the charge is indicated outside the square brackets as a right superscript with the number before the sign. For example, [Co(CN)6]3-, [Cr(H2O)6]3+, etc.
- The charge of the anion(s) balances the charge of the cation(s).