What is the Difference Between Nitrite and Nitrogen Dioxide?
🆚 Go to Comparative Table 🆚The main difference between nitrite and nitrogen dioxide lies in their chemical structure and charge.
- Nitrite: Nitrite is an anion with the chemical formula NO⁻². It has a molar mass of 46.01 g/mol and an oxidation number of +3 for the nitrogen atom. Nitrite can undergo either oxidation or reduction, making it both an oxidizing and reducing agent. It is formed from the reduction of nitrate.
- Nitrogen Dioxide: Nitrogen dioxide (NO²) is an inorganic compound with the chemical formula NO². It is a molecule, not an anion, and has an oxidation number of zero. It is a strong oxidizing agent and can undergo reduction as well. Nitrogen dioxide is formed from the oxidation of nitric oxide (NO).
Both nitrite and nitrogen dioxide have one nitrogen atom and two oxygen atoms, but they differ in their electrical charge and structure. In essence, nitrite is a negatively charged anion, while nitrogen dioxide is a neutral molecule with a double bond between the nitrogen and oxygen atoms.
Comparative Table: Nitrite vs Nitrogen Dioxide
Here is a table comparing the differences between nitrite and nitrogen dioxide:
Property | Nitrite | Nitrogen Dioxide |
---|---|---|
Chemical Formula | NO–2 | NO2 |
Type of Compound | Anion | Molecule |
Molar Mass | 46.01 g/mol | - |
Oxidation State of Nitrogen | +3 | +4 |
Geometry | Bent | Planar |
Reactivity | Can act as both a reducing agent and an oxidizing agent | Strong oxidizing agent |
Formation | By reduced nitrates or from salts and coordination complexes | By combustion or decomposition of nitrates and nitrogen-rich compounds |
Applications | Food preservation (e.g., cured meats), color and fertilizer production, bleaching of fibers, and printing | Air pollution, smog formation, chemical industry |
Nitrite (NO–2) is an anion with a molar mass of 46.01 g/mol, and it can act as both a reducing agent and an oxidizing agent. It has a bent molecular geometry and an oxidation state of +3 for nitrogen. Nitrogen dioxide (NO2), on the other hand, is a molecule with a planar geometric shape. It has an oxidation state of +4 for nitrogen and is a strong oxidizing agent. Nitrite is primarily used in food preservation, color, and fertilizer production, while nitrogen dioxide is associated with air pollution, smog formation, and the chemical industry.
- Nitrate vs Nitrite
- Nitrogen vs Nitrate
- Sodium Nitrate vs Sodium Nitrite
- N2O4 vs NO2
- Nitrogen Monoxide vs Dinitrogen Pentoxide
- Nitric Oxide vs Nitrous Oxide
- Nitromethane vs Methyl Nitrite
- Monoxide vs Dioxide
- Oxide vs Dioxide
- Nitrification vs Denitrification
- Ammonia vs Ammonium Nitrate
- Nitrox vs Air
- Oxygen vs Carbon Dioxide
- Sodium Chloride vs Sodium Nitrate
- Chlorine vs Chlorine Dioxide
- Nitrogen Fixation vs Nitrification
- Ethyl Nitrite vs Nitroethane
- Carbon Dioxide vs Carbon Monoxide
- Nitric Acid vs Nitrous Acid