Difference Between Electronic and Ionic Conduction

The key difference between electronic and ionic conduction is that electronic conduction is the movement of electrons from one place to another, whereas ionic conduction is the movement of ions from one place to another.

The term conduction refers to the transfer of energy through a substance. Here, the energy can be transferred in different forms such as heat and electricity. Electronic conduction and ionic conduction are two forms of energy transferring methods which are categorized based on the medium of conduction.

CONTENTS

1. Overview and Key Difference
2. What is Electronic Conduction
3. What is Ionic Conduction
4. Side by Side Comparison – Electronic vs Ionic Conduction in Tabular Form
5. Summary

What is Electronic Conduction?

Electronic conduction is the process of transferring energy in the form of an electric current. Here, the method of conduction is electron movement. However, any electron in any system cannot contribute to this conduction method. Electrons have to be in a free state in order to move from one place to another. The inner shell electrons of atoms cannot move. Another requirement is the presence of an electric field that can cause the movement of free electrons.

Electrons that are able to undergo conduction are called “conduction electrons”. These electrons are not firmly attached to any atom or a molecule. These free electrons can jump from the orbital of an atom to an orbital of an adjacent atom. However, as a whole, these electrons are bound to the conductor. The movement of electrons starts with the application of an electric field. The electric field gives the electrons a direction to move.

What is Ionic Conduction?

Ionic conduction is the process of transferring energy via the movement of ionic species. During ionic conduction, different ionic species move from one place to another place according to an ionic gradient. An ion is a charged species; it can be either positively charged or negatively charged. Positively charged ions move towards negatively charged places and vice versa. The tendency of a substance towards ionic conduction is measured as ionic conductivity. It is denoted by λ.

Most often, we use the term ionic conduction regarding crystal lattices. Here, ionic conduction refers to the movement of ions from one defect to another in the crystal lattice. The process of conduction of ions is a mechanism of current where energy is passed from one place to another.

What is the Difference Between Electronic and Ionic Conduction?

Electronic conduction and ionic conduction are two forms of energy transferring methods which are categorized based on the medium of conduction. The key difference between electronic and ionic conduction is that electronic conduction is the movement of electrons from one place to another, whereas ionic conduction is the movement of ions from one place to another.

Below is a summary table of the difference between electronic and ionic conduction.

Summary – Electronic vs Ionic Conduction

Electronic conduction and ionic conduction are two forms of energy transferring methods which are categorized based on the medium of conduction. The key difference between electronic and ionic conduction is that electronic conduction is the movement of electrons from one place to another, whereas ionic conduction is the movement of ions from one place to another.

Reference:

1. “Metallic Conduction.” Encyclopædia Britannica, Encyclopædia Britannica, Inc., Available here.
2. “Electrical Conduction.” ScienceDaily, ScienceDaily, Available here.

Image Courtesy:

1. “Conduction E vs DOS” By Tem5psu – Own work (CC BY-SA 4.0) via Commons Wikimedia

2. “Chloralkali membrane” By Jkwchui – Based on * Bommaraju, Tilak V.; Orosz, Paul J.; Sokol, Elizabeth A.(2007). “Brine Electrolysis.” Electrochemistry Encyclopedia. Cleveland: Case Western Rsserve University.MSN Encarta. “Chloralkali Electrolysis.” Archived 2009-10-31 (CC BY-SA 3.0) via Commons Wikimedia