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A photograph shows a person’s hand as he or she applies a white cream to his or her leg.
Zinc oxide protects exposed skin from sunburn. (credit: modification of work by "osseous"/Flickr)

Peroxides and superoxides

Peroxides and superoxides are strong oxidizers and are important in chemical processes. Hydrogen peroxide, H 2 O 2 , prepared from metal peroxides, is an important bleach and disinfectant. Peroxides and superoxides form when the metal or metal oxides of groups 1 and 2 react with pure oxygen at elevated temperatures. Sodium peroxide and the peroxides of calcium, strontium, and barium form by heating the corresponding metal or metal oxide in pure oxygen:

2Na ( s ) + O 2 ( g ) Δ Na 2 O 2 ( s )
2 Na 2 O ( s ) + O 2 ( g ) Δ 2 Na 2 O 2 ( s )
2SrO ( s ) + O 2 ( g ) Δ 2 SrO 2 ( s )

The peroxides of potassium, rubidium, and cesium can be prepared by heating the metal or its oxide in a carefully controlled amount of oxygen:

2K ( s ) + O 2 ( g ) K 2 O 2 ( s ) ( 2 mol K per mol O 2 )

With an excess of oxygen, the superoxides KO 2 , RbO 2 , and CsO 2 form. For example:

K ( s ) + O 2 ( g ) KO 2 ( s ) ( 1 mol K per mol O 2 )

The stability of the peroxides and superoxides of the alkali metals increases as the size of the cation increases.

Hydroxides

Hydroxides are compounds that contain the OH ion. It is possible to prepare these compounds by two general types of reactions. Soluble metal hydroxides can be produced by the reaction of the metal or metal oxide with water. Insoluble metal hydroxides form when a solution of a soluble salt of the metal combines with a solution containing hydroxide ions.

With the exception of beryllium and magnesium, the metals of groups 1 and 2 react with water to form hydroxides and hydrogen gas. Examples of such reactions include:

2Li ( s ) + 2 H 2 O ( l ) 2LiOH ( a q ) + H 2 ( g )
Ca ( s ) + 2 H 2 O ( l ) Ca ( OH ) 2 ( a q ) + H 2 ( g )

However, these reactions can be violent and dangerous; therefore, it is preferable to produce soluble metal hydroxides by the reaction of the respective oxide with water:

Li 2 O ( s ) + H 2 O ( l ) 2LiOH ( a q )
CaO ( s ) + H 2 O ( l ) Ca ( OH ) 2 ( a q )

Most metal oxides are base anhydrides . This is obvious for the soluble oxides because they form metal hydroxides. Most other metal oxides are insoluble and do not form hydroxides in water; however, they are still base anhydrides because they will react with acids.

It is possible to prepare the insoluble hydroxides of beryllium, magnesium, and other representative metals by the addition of sodium hydroxide to a solution of a salt of the respective metal. The net ionic equations for the reactions involving a magnesium salt, an aluminum salt, and a zinc salt are:

Mg 2+ ( a q ) + 2 OH ( a q ) Mg ( OH ) 2 ( s )
Al 3+ ( a q ) + 3 OH ( a q ) Al ( OH ) 3 ( s )
Zn 2+ ( a q ) + 2 OH ( a q ) Zn ( OH ) 2 ( s )

An excess of hydroxide must be avoided when preparing aluminum, gallium, zinc, and tin(II) hydroxides, or the hydroxides will dissolve with the formation of the corresponding complex ions: Al(OH) 4 , Ga(OH) 4 , Zn(OH) 4 2− , and Sn(OH) 3 (see [link] ). The important aspect of complex ions for this chapter is that they form by a Lewis acid-base reaction with the metal being the Lewis acid.

This figure has two photos. The first photo shows a bottle labeled NaOH and a test tube containing a liquid. A white substance appears to be in the liquid. The second photo is set up similarly, but the test tube now contains only a clear liquid.
(a) Mixing solutions of NaOH and Zn(NO 3 ) 2 produces a white precipitate of Zn(OH) 2 . (b) Addition of an excess of NaOH results in dissolution of the precipitate. (credit: modification of work by Mark Ott)

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Source:  OpenStax, Chemistry. OpenStax CNX. May 20, 2015 Download for free at http://legacy.cnx.org/content/col11760/1.9
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