Ionisation Energy Trends Across a Period
- The trends in ionisation energy across a period and down a group have been discussed in our revision note on Periodicity
- Trends in ionisation energy across a period provide evidence for the existence of energy sublevels
Graph showing Ionisation Energies From H to Ne
A graph showing the ionisation energies of the elements hydrogen to sodium
- The ionization energy across a period increases due to the following factors:
- Across a period the nuclear charge increases
- The distance between the nucleus and outer electron remains reasonably constant
- The shielding by inner shell electrons remains the same
- There is a rapid decrease in ionisation energy between the last element in one period and the first element in the next period caused by:
- The increased distance between the nucleus and the outer electrons
- The increased shielding by inner electrons
- These two factors outweigh the increased nuclear charge
Exceptions to the general trend in ionisation energy
- There are discontinuities in the general trend which are caused by the following:
- There is a slight decrease in 1st I.E. between beryllium and boron as the fifth electron in boron is in the 2p subshell which is further away from the nucleus than the 2s subshell of beryllium
- Beryllium has a first ionisation energy of 900 kJ mol-1 as its electron configuration is 1s2 2s2
- Boron has a first ionisation energy of 801 kJ mol-1 as its electron configuration is 1s2 2s2 2p1
- There is a slight decrease in 1st I.E. between nitrogen and oxygen due to spin-pair repulsion in the 2p subshell of oxygen
- Nitrogen has a first ionisation energy of 1402 kJ mol-1 as its electron configuration is 1s2 2s2 2p3
- Oxygen has a first ionisation energy of 1314 kJ mol-1 as its electron configuration is 1s2 2s2 2p4
- There is a slight decrease in 1st I.E. between beryllium and boron as the fifth electron in boron is in the 2p subshell which is further away from the nucleus than the 2s subshell of beryllium
Summary of Ionisation Energy Trends across a Period & going down a Group Table
| Across a Period: Ionisation Energy Increases | Down a Group: Ionisation Energy Decreases |
| Increase in nuclear charge | Increase in nuclear charge |
|
Shell number is the same The distance of the outer electron to the nucleus is the same |
Increase in shells Distance of outer electron to nucleus increases The shielding effect increases, therefore, the attraction of valence electrons to the nucleus decreases |
| Shielding remains reasonably constant | Increased shielding |
| Deceased atomic/ionic radius | Increases atomic/ionic radius |
| The outer electron is held more tightly to the nucleus so it gets harder to remove it | The outer electron is held more loosely to the nucleus so it gets easier to remove it |
