A single-displacement reaction, also known as single replacement reaction or exchange reaction, is an archaic concept in chemistry. It describes the stoichiometry of some chemical reactions in which one element or ligand is replaced by atom or group.[1][2][3]
It can be represented generically as:
where either
This will most often occur if is more reactive than , thus giving a more stable product. The reaction in that case is exergonic and spontaneous.
In the first case, when and are metals, and are usually aqueous compounds (or very rarely in a molten state) and is a spectator ion (i.e. remains unchanged).[1]
In the reactivity series, the metals with the highest propensity to donate their electrons to react are listed first, followed by less reactive ones. Therefore, a metal higher on the list can displace anything below it. Here is a condensed version of the same:[1]
- (Hydrogen, carbon and ammonium — labeled in gray — are not metals.)
Similarly, the halogens with the highest propensity to acquire electrons are the most reactive. The activity series for halogens is: [1][2][3]
Due to the free state nature of and , single displacement reactions are also redox reactions, involving the transfer of electrons from one reactant to another.[4] When and are metals, is always oxidized and is always reduced. Since halogens prefer to gain electrons, is reduced (from to ) and is oxidized (from to ). It a chemical change
Cation replacement
editHere one cation replaces another:
(Element A has replaced B in compound BC to become a new compound AC and the free element B.)
Some examples are:
-
- (Blue vitriol)____(Green vitriol)
-
- (Blue vitriol)___(White vitriol)
-
- (Green vitriol) (White vitriol)
These reactions are exothermic and the rise in temperature is usually in the order of the reactivity of the different metals.[5]
If the reactant in elemental form is not the more reactive metal, then no reaction will occur. Some examples of this would be the reverse.
- No Reaction
External videos | |
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CuCl2 and Iron Part 2, 2011 | |
Reaction of CuCl2 with Al, 2011 | |
Copper Sulfate and Iron: Part 1, 2011 |
Anion replacement
editHere one anion replaces another:
(Element A has replaced B in the compound CB to form a new compound CA and the free element B.)
Some examples are:
Again, the less reactive halogen cannot replace the more reactive halogen:
- no reaction
Common reactions
editMetal-acid reaction
editMetals react with acids to form salts and hydrogen gas.
However less reactive metals can not displace the hydrogen from acids.[3] (They may react with oxidizing acids though.)
- No reaction
Reaction between metal and water
editMetals react with water to form metal oxides and hydrogen gas. The metal oxides further dissolve in water to form alkalies.
The reaction can be extremely violent with alkali metals as the hydrogen gas catches fire.[2]
Metals like gold and silver, which are below hydrogen in the reactivity series, do not react with water.
External videos | |
---|---|
Reaction of Potassium and Water, 2011 | |
Reaction of Magnesium and Water, 2011 |
Metal extraction
editCoke or more reactive metals are used to reduce metals by carbon from their metal oxides,[6] such as in the carbothermic reaction of zinc oxide (zincite) to produce zinc metal:
and the use of aluminium to produce manganese from manganese dioxide:
Such reactions are also used in extraction of boron, silicon, titanium and tungsten.
Thermite reaction
editUsing highly reactive metals as reducing agents leads to exothermic reactions that melt the metal produced. This is used for welding railway tracks.[6]
a(Haematite)
Silver tarnish
editSilver tarnishes due to the presence of hydrogen sulfide, leading to formation of silver sulfide.[7][2]
Extraction of halogens
editChlorine is manufactured industrially by the Deacon's process. The reaction takes place at about 400 to 450 °C in the presence of a variety of catalysts such as .
Bromine and iodine are extracted from brine by displacing with chlorine.
See also
editReferences
edit- ^ a b c d "Single replacement reactions". Khan Academy.
- ^ a b c d e f g "Single Replacement Reactions". Chemistry LibreTexts. 2016-06-27.
- ^ a b c d "Types of Chemical Reactions: Single- and Double-Displacement Reactions". courses.lumenlearning.com.
- ^ Silberberg. Chemistry, the Molecular Nature of Matter and Change, 4th ed. p. 150 McGraw Hill 2006.
- ^ "Exothermic metal displacement reactions". RSC Education. Nuffield Foundation.
{{cite web}}
: CS1 maint: others (link) - ^ a b "Displacement reactions of metal oxides". BBC Bitesize.
- ^ JCE staff (2000-03-01). "Silver to Black - and Back". Journal of Chemical Education. 77 (3): 328A. Bibcode:2000JChEd..77R.328J. doi:10.1021/ed077p328A. ISSN 0021-9584.