| IUPAC name
| Other names
|Molar mass||61.98 g/mol|
|Melting point||1,132 °C (2,070 °F; 1,405 K)|
|Boiling point||1,950 °C (3,540 °F; 2,220 K)|
|Solubility|| Reacts with alcohols, carboxylic acids|
Insoluble in ethers, hydrocarbons
Std enthalpy of
|Safety data sheet||Sigma-Aldrich|
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
Sodium oxide is a chemical compound with the formula Na2O. It is one of the three oxides of sodium, the other being sodium peroxide and sodium superoxide.
Sodium oxide reacts with water to give sodium hydroxide. The reaction is highly exothermic.
- Na2O + H2O → 2 NaOH
Reaction with alcohols gives their corresponding alkoxides.
Sodium oxide is a white solid, which reacts with water and atmospheric moisture. It melts at 1,132 °C and boils at 1,950 °C, though it begins to sublime at 1275 °C.
Sodium oxide is sold by chemical suppliers, though it's difficult to get hold of.
Sodium oxide can be prepared via several routes.
The most common method involves burning sodium in air. The reaction produces both sodium oxide and sodium peroxide, with the latter being around 20% of the product.
Another common route involves the calcination of sodium carbonate at 800-1000 °C.
- Na2CO3 → Na2O + CO2
A lower temperature route involves the decomposition of sodium ascorbate, which can be easily obtained by reacting sodium bicarbonate with ascorbic acid. The decomposition begins at 218 °C, yielding sodium oxide and furanes.
Decomposition of sodium nitrite will give off nitrogen oxides and leave behind sodium oxide. Decomposition begins at around 320 °C.
The last three reactions give hot sodium oxide which can rapidly absorb moisture and carbon dioxide and convert back to sodium hydroxide/carbonate. Cooling of the hot sodium hydroxide should be done in an inert medium.
- Make pure sodium hydroxide
- Dry CO2 scrubber
- Make soda glass
Sodium oxide is extremely corrosive and reaction with water is highly exothermic.
Should be stored in air-tight containers. Schlenk flasks, gloveboxes, sealed ampoules are recommended.
Sodium oxide should be neutralized by slow addition in cold acidified water. Aqueous phosphoric acid can be used as it has low volatility.
- Lewis, R.J. Sr. (ed) Sax's Dangerous Properties of Industrial Materials. 11th Edition. Wiley-Interscience, Wiley & Sons, Inc. Hoboken, NJ. 2004., p. 310