The oxidation state of a metal affects how strongly it can bind ligands and what type of complex it can form.
Effects of Oxidation State
- Charge on the metal ion
- A higher oxidation state means the metal ion has more positive charge.
- This pulls ligands closer, making stronger bonds and often more stable complexes.
- Size of the ion
- Higher oxidation states make the metal ion smaller (because electrons are pulled in tighter).
- Smaller ions attract ligands more strongly.
- Type of ligands that bind
- Metals in low oxidation states often bind to ligands that donate electrons easily (like CO, phosphines).
- Metals in high oxidation states usually prefer oxygen or nitrogen donors (like H₂O, OH⁻, F⁻).
- Geometry and number of ligands
- Oxidation state can change how many ligands fit around the metal (coordination number) and the shape of the complex.
Examples
- Fe²⁺ (low oxidation) forms pale green [Fe(H₂O)₆]²⁺ complexes.
- Fe³⁺ (higher oxidation) forms yellow/brown [Fe(H₂O)₆]³⁺ complexes, more acidic and strongly binding.
- Cu⁺ forms fewer and softer complexes, while Cu²⁺ forms stronger, more stable ones.
In short:
The oxidation state decides how tightly the metal holds ligands, which ligands it prefers, and what shape complex forms.