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As a general term, a substance is said to be anhydrous if it contains no water. The way of achieving the anhydrous form differs from one substance to another.



In many cases, the presence of water can prevent a reaction from happening, or form undesirable products. To prevent this, anhydrous solvents must be used when performing certain reactions. Examples of reactions requiring the use of anhydrous solvents are the Grignard reaction and the Wurtz reaction.

Solvents are commonly rendered anhydrous by boiling them in the presence of a hygroscopic substance; metallic sodium is one of the most common metals used. Other methods include the addition of molecular sieves or alkali bases such as potassium hydroxide or barium oxide. Column solvent purification devices (generally referred to as Grubb's columns) recently became available, reducing the hazards (water reactive substances, heat) from the classical dehydrating methods.[1]

Ionic crystals

An example of anhydration can be seen in copper(II) sulfate. If the water of crystallization is removed from blue crystals of copper (II) sulfate, a white powder (anhydrous copper(II) sulfate) is formed.

The formula for anhydration of pentahydrate copper (II) sulfate (CuSO4·5H2O) is as follows:

CuSO4·5H2O + heat → CuSO4 + 5H2O

Another example is in the heating of magnesium sulfate heptahydrate, MgSO4·7H2O. On heating, it undergoes the following reaction:

MgSO4·7H2O + heat → MgSO4 + 7H2O


Several substances that exist as gases at standard conditions of temperature and pressure are commonly used as concentrated aqueous solutions. To clarify that it is the gaseous form that is being referred to, the term anhydrous is prepended to the name of the substance:

  • gaseous ammonia is generally referred to as anhydrous ammonia to distinguish it from household ammonia, which is an ammonium hydroxide aqueous solution.
  • gaseous hydrogen chloride is generally referred to as anhydrous to distinguish it from the more commonly used 37% w/w solution in water.

See also


  1. ^ Guidelines for solvent purification at UC Davis
This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Anhydrous". A list of authors is available in Wikipedia.
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