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In organic chemistry, an addition reaction is an organic reaction where two or more molecules combine to form a larger one (the adduct).^[1]^[2]

Addition reactions are limited to chemical compounds that have multiple bonds, such as molecules with carbon–carbon double bonds (alkenes), or with triple bonds (alkynes), and compounds that have rings, which are also considered points of unsaturation. Molecules containing carbon—hetero double bonds like carbonyl (C=O) groups, or imine (C=N) groups, can undergo addition, as they too have double-bond character.

An addition reaction is the reverse of an elimination reaction. For instance, the hydration of an alkene to an alcohol is reversed by dehydration.

There are two main types of polar addition reactions: electrophilic addition and nucleophilic addition. Two non-polar addition reactions exist as well, called free-radical addition and cycloadditions. Addition reactions are also encountered in polymerizations and called addition polymerization.

Depending on the product structure, it could promptly react further to eject a leaving group to give the addition–elimination reaction sequence.

Addition reactions are useful in analytic chemistry, as they can identify the existence and number of double bonds in a molecule. For example, bromine addition will consume a bromine solution, resulting in a color change:

{\ce {RR'C=CR''R'''+Br2(orange-brown)->[{} \atop {\ce {CCl4}}]RR'CBr-BrCR''R'''(typically\ colorless)}}

Likewise hydrogen addition often proceeds on all double-bonds of a molecule, and thus gives a count of the number of a double and triple bonds through stoichiometry:

{\ce {{(H2C=CH)2}+2H2->[{} \atop {\ce {Pt}}/{\ce {Pd}}](H3C-CH2)2}}

References[edit]

^ Morrison, R. T.; Boyd, R. N. (1983). Organic Chemistry (4th ed.). Boston: Allyn and Bacon. ISBN 0-205-05838-8.
^ March, Jerry (1985), Advanced Organic Chemistry: Reactions, Mechanisms, and Structure, 3rd edition, New York: Wiley, ISBN 9780471854722, OCLC 642506595.

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Quotations related to Addition reaction at Wikiquote

[1] Morrison, R. T.; Boyd, R. N. (1983). Organic Chemistry (4th ed.). Boston: Allyn and Bacon. ISBN 0-205-05838-8.

[2] March, Jerry (1985), Advanced Organic Chemistry: Reactions, Mechanisms, and Structure, 3rd edition, New York: Wiley, ISBN 9780471854722, OCLC 642506595.

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Basic reaction mechanisms
Nucleophilic substitutions	Unimolecular nucleophilic substitution (S_N1) Bimolecular nucleophilic substitution (S_N2) Nucleophilic aromatic substitution (S_NAr) Nucleophilic internal substitution (S_Ni) Nucleophilic acyl substitution (S_NAcyl)
Electrophilic substitutions	Electrophilic aromatic substitution (S_EAr)
Elimination reactions	Unimolecular elimination (E1) E1cB-elimination Bimolecular elimination (E2) E_i elimination
Addition reactions	Electrophilic addition Nucleophilic addition Free-radical addition Cycloaddition Oxidative addition
Unimolecular reactions	Intramolecular reaction Isomerization Photodissociation Lindemann–Hinshelwood mechanism RRKM theory
Electron/Proton transfer reactions	Redox Harpoon reaction Grotthuss mechanism Marcus theory Inner sphere electron transfer Outer sphere electron transfer
Medium effects	Solvent effects Cage effect Matrix isolation
Related topics	Elementary reaction Reaction dynamics Reactive intermediate Radical (chemistry) Molecularity Stereochemistry Catalysis Collision theory Arrow pushing Potential energy surface More O'Ferrall–Jencks plot
Chemical kinetics	Rate equation Equilibrium constant Rate-determining step Reaction coordinate Energy profile (chemistry) Transition state theory Activation energy Activated complex Arrhenius equation Eyring equation Michaelis–Menten kinetics Diffusion-controlled reaction

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