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In chemistry, an adduct (; alternatively, a contraction of "addition product") is a product of a direct addition of two or more distinct , resulting in a single reaction product containing all atoms of all components. The resultant is considered a distinct chemical species. Examples include the addition of sodium bisulfite to an aldehyde to give a sulfonate. It can be considered as a single product resulting from the direct combination of different molecules which comprises all atoms of the reactant molecules.
Adducts often form between and . (2025). 9780131755536, Pearson Education. ISBN 9780131755536 A good example is the formation of adducts between the Lewis acid borane and the oxygen atom in the Lewis bases, tetrahydrofuran (THF): or diethyl ether: . Many Lewis acids and Lewis bases reacting in the gas phase or in non-aqueous solvents to form adducts have been examined in the ECW model. Trimethylborane, trimethyltin chloride and bis(hexafluoroacetylacetonato)copper(II) are examples of Lewis acids that form adducts which exhibit steric effects. For example: trimethyltin chloride, when reacting with diethyl ether, exhibits steric repulsion between the on the tin and the ethyl groups on oxygen. But when the Lewis base is tetrahydrofuran, steric repulsion is reduced. The ECW model can provide a measure of these steric effects.
| + Ball and stick diagram of the Lewis adduct between BH3 and THF | tetrahydrofuran molecule Image:Borane-3D-balls.png | Borane molecule Image:Borane-THF-adduct-3D-balls.png | Lewis adduct between Borane and tetrahydrofuran |
Adducts are not necessarily molecular in nature. A good example from solid-state chemistry is the adducts of ethylene or carbon monoxide of . The latter is a solid with an extended lattice structure. Upon formation of the adduct, a new extended phase is formed in which the gas molecules are incorporated (inserted) as of the copper atoms within the structure. This reaction can also be considered a reaction between a base and a Lewis acid where the copper atom plays the electron-receiving role and the of the gas molecule play the electron-donating role.
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