Inert pair effect Definition - Intro to Chemistry Key Term

Definition

The inert pair effect is the tendency of the outermost s-electrons to remain non-bonding or inert in heavier elements of groups 13 through 17. This results in the element exhibiting lower oxidation states than expected.

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The inert pair effect becomes more pronounced as you move down a group in the periodic table.
Thallium (Tl) in Group 13 often shows an oxidation state of +1 instead of +3 due to the inert pair effect.
The effect is attributed to poor shielding by d and f orbitals, making s-electrons less available for bonding.
Lead (Pb) can exhibit an oxidation state of +2 instead of its expected +4 due to this effect.
The inert pair effect challenges predictions made solely based on the octet rule and electron configurations.

Review Questions

Related terms

Oxidation State:

The degree of oxidation of an atom within a compound, represented by an integer indicating the number of electrons lost or gained.

Electron Shielding: The phenomenon where inner-shell electrons reduce the effective nuclear charge felt by outer-shell electrons.

Valence Electrons:

Electrons in the outermost shell of an atom that are involved in forming bonds.

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Inert pair effect

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