What is the Difference Between Free Radical and Ion?
🆚 Go to Comparative Table 🆚The main difference between a free radical and an ion lies in the number of unpaired electrons and their charge:
- Free Radicals: These are molecules or ions containing at least one unpaired electron. Free radicals have one or more unpaired electrons, making them highly reactive. They are not charged species, even if they have unpaired electrons, as the number of electrons is equal to the number of protons in the nucleus. Examples of free radicals include Cl and various organic compounds with unpaired electrons.
- Ions: These are atoms or molecules that have gained or lost electrons, resulting in a positive or negative charge. Ions typically have all electrons paired. They hold a negative charge due to a gain of an electron and hold a positive charge due to the loss of an electron. Examples of ions include Cl- (a chloride ion with a negative charge) and other charged species.
In summary, free radicals have one or more unpaired electrons and are not charged, while ions have paired electrons and carry a charge.
On this pageWhat is the Difference Between Free Radical and Ion? Comparative Table: Free Radical vs Ion
Comparative Table: Free Radical vs Ion
The main difference between a free radical and an ion is the number of unpaired electrons they possess. Here is a comparison table highlighting the differences between free radicals and ions:
Property | Free Radicals | Ions |
---|---|---|
Unpaired Electrons | Have one or more unpaired electrons | Typically have all electrons paired |
Stability | Unstable due to unpaired electrons | Relatively stable |
Charge | Not charged, even with unpaired electrons | Always hold a charge (positive or negative) |
Formation | Can exist by themselves | Often combined with oppositely charged ions |
In summary, free radicals have one or more unpaired electrons, making them highly reactive and unstable. On the other hand, ions have paired electrons, making them relatively stable. Ions always hold a charge, while free radicals are not charged.
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