Amide

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Image:Amide-general.pngIn chemistry, an amide is one of two kinds of compound. It can mean the organic functional group characterized by a carbonyl group linked to a nitrogen atom or a compound that contains this functional group (pictured to the right), or it can mean a particular kind of nitrogen anion. Many chemists make a pronunciation distinction between the two, saying (IPA:) [ə'mɪd] for the carbonyl-nitrogen compound and ['æmɑɪd] for the anion. Others substitute one of these pronunciations with ['æmɪd], while still others pronounce both as ['æmɪd], making them homonyms.

In the first sense referred to above, an amide is essentially an amine where one of the nitrogen substituents is an acyl group, represented generally by the formula: R₁(CO)NR₂R₃ where either or both of R₂ and R₃ may be hydrogen. Specifically, an amide can also be regarded as a derivative of a carboxylic acid in which the hydroxyl group has been replaced by an amine or ammonia.

Compounds in which a hydrogen atom on nitrogen from ammonia or an amine is replaced by a metal cation are also known as amides or azanides.

The second sense of the word amide is the amide anion, which is a deprotonated form of ammonia or an amine. It is represented generally by the formula: [R₁NR₂]^-, and is an extremely strong base, due to the extreme weakness of ammonia and its analogoues as Brønsted acids.

The remainder of this article is about the carbonyl-nitrogen sense of amide. For examples of the anionic amide, see the articles Sodium amide and Lithium diisopropylamide.

Contents 1 Amide synthesis 2 Amide reactions 3 Amide Properties 4 Derivatives 5 Naming Conventions 6 External links

Amide synthesis

Image:Amide react.png

• Amides are commonly formed from the reaction of a carboxylic acids with an amine.This is the reaction that forms peptide bonds between amino acids. These amides can participate in hydrogen bonding as hydrogen bond acceptors and donors, but do not ionize in aqueous solution, whereas their parent acids and amines are almost completely ionized in solution at neutral pH. Amide formation plays a role in the synthesis of some condensation polymers, such as nylon and Kevlar.
• Cyclic amides are synthesized in the Beckmann rearrangement from oximes.
• Other amide forming reactions are the Passerini reaction and the Ugi reaction

Amide reactions

• Amide breakdown is possible via amide hydrolysis.
• In the Vilsmeier-Haack reaction an amide is converted into an imine.

Amide Properties

An amide linkage is kinetically stable to hydrolysis. However, it can be hydrolysed in boiling alkali, as well as in strong acidic conditions. Amide linkages in a biochemical context are called peptide linkages. Amide linkages constitute a defining molecular feature of proteins, the secondary structure of which is due in part to the hydrogen bonding abilities of amides.

Derivatives

Sulfonamides are analogs of amides in which the atom double bonded to oxygen is sulfur rather than carbon.

Naming Conventions

• Example: CH₃CONH₂ is named acetamide or ethanamide
• Other examples: propan-1-amide, N,N-dimethylpropanamide, acrylamide
• For more detail see IUPAC nomenclature of organic chemistry - Amines and Amides

External links

• IUPAC Compendium of Chemical Terminologyar:أميد

ca:Amida (grup funcional) da:Amid (funktionel gruppe) de:Amide es:Amida eo:Amido fr:Amide he:אמיד nl:Amide ja:アミド pl:Amid ro:Amide ru:Амиды fi:Amidi