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Carboxylic acid - Wikipedia, the free encyclopedia

Carboxylic acid

From Wikipedia, the free encyclopedia

Structure of a carboxylic acid
Structure of a carboxylic acid
The 3D structure of the carboxyl group
The 3D structure of the carboxyl group
A space-filling model of the carboxyl group
A space-filling model of the carboxyl group

Carboxylic acids are organic acids characterized by the presence of a carboxyl group, which has the formula -C(=O)OH, usually written -COOH or -CO2H. [1] Carboxylic acids are Brønsted-Lowry acids — they are proton donors. Salts and anions of carboxylic acids are called carboxylates.

The simplest series of carboxylic acids are the alkanoic acids, R-COOH, where R is a hydrogen or an alkyl group. Compounds may also have two or more carboxylic acid groups per molecule.

Contents

[edit] Physical properties

Carboxylic acid dimers
Carboxylic acid dimers

Carboxylic acids are polar, and form hydrogen bonds with each other. At high temperatures, in vapor phase, carboxylic acids usually exist as dimeric pairs. Lower carboxylic acids (1 to 4 carbons) are miscible with water, whereas higher carboxylic acids are very much less-soluble due to the increasing hydrophobic nature of the alkyl chain. They tend to be rather soluble in less-polar solvents such as ethers and alcohols.[2]

Carboxylic acids are widespread in nature and are typically weak acids, meaning that they only partially dissociate into H+ cations and RCOO anions in aqueous solution. For example, at room temperature, only 0.02 % of all acetic acid molecules are dissociated in water.

Since the carboxylic acids are weak acids, in water, both forms exist in an equilibrium:

RCOOH ↔ RCOO + H+

The acidity of carboxylic acids can be explained by either the stability of the acid or the stability of the conjugate base using inductive effects or resonance effects.

[edit] Stability of the acid

Using inductive effects, the acidity of carboxylic acids can be rationalized by the two electronegative oxygen atoms distorting the electron clouds surrounding the O-H bond, weakening it. The weak O-H bond causes the acid molecule to be less stable, and causing the hydrogen atom to be labile, thus it dissociates easily to give the H+ ion. Since the acid is unstable, the equilibrium will lie on the right.

Additional electronegative atoms or groups, such as chlorine or hydroxyl, substituted on the R-group have a similar, though lesser effect. The presence of these groups increases the acidity through inductive effects. For example, trichloroacetic acid (three -Cl groups) is a stronger acid than lactic acid (one -OH group), which in turn is stronger than acetic acid (no electronegative constituent).

[edit] Stability of the conjugate base

Resonance stabilization of carboxylic acids
Resonance stabilization of carboxylic acids

The acidity of a carboxylic acid can also be explained by resonance effects. The result of the dissociation of a carboxylic acid is a resonance stabilized product in which the negative charge is shared (delocalized) between the two oxygen atoms. Each of the carbon-oxygen bonds has what is called a partial double-bond characteristic. Since the conjugate base is stabilized, the above equilibrium lies on the right.

[edit] Spectroscopy

Carboxylic acids are most readily identified as such by infrared spectrometry. They exhibit a sharp C=O stretch between 1680 and 1725 cm−1, and the characteristic O-H stretch of the carboxyl group appears as a broad peak in the 2500 to 3000 cm−1 region.[2]

In 1H NMR spectrometry, the hydroxyl hydrogen appears in the 10-13 ppm region, though it is often either broadened or not observed due to exchange with any traces of water.

[edit] Sources

Lower straight-chain aliphatic carboxylic acids, as well as those of even carbon number up to C18, are commercially available. For example, acetic acid is produced by methanol carbonylation with carbon monoxide, whereas long chain carboxylic acids are obtained by the hydrolysis of triglycerides obtained from plant or animal oils.

Vinegar, a dilute solution of acetic acid, is biologically produced from the fermentation of ethanol. It is used in food and beverages, but is not used in industry.

[edit] Synthesis

Carboxylic acids may also form from the following reactions:

[edit] Reactions

  • Carboxylic acids react with bases to form carboxylate salts, in which the hydrogen of the hydroxyl (-OH) group is replaced with a metal cation. Thus, acetic acid found in vinegar reacts with sodium bicarbonate (baking soda) to form sodium acetate, carbon dioxide, and water:
CH3COOH + NaHCO3 → CH3COONa + CO2 + H2O

[edit] Nomenclature and examples

The carboxylate anion R-COO is usually named with the suffix -ate, so acetic acid, for example, becomes acetate ion. In IUPAC nomenclature, carboxylic acids have an -oic acid suffix (e.g., octadecanoic acid). In common nomenclature, the suffix is usually -ic acid (e.g., stearic acid).

Straight-Chained, Saturated Carboxylic Acids
Carbon atoms Common name IUPAC name Chemical formula Common location or use
1 Formic acid Methanoic acid HCOOH Insect stings
2 Acetic acid Ethanoic acid CH3COOH Vinegar
3 Propionic acid Propanoic acid CH3CH2COOH
4 Butyric acid Butanoic acid CH3(CH2)2COOH Rancid butter
5 Valeric acid Pentanoic acid CH3(CH2)3COOH Valerian
6 Caproic acid Hexanoic acid CH3(CH2)4COOH
7 Enanthic acid Heptanoic acid CH3(CH2)5COOH
8 Caprylic acid Octanoic acid CH3(CH2)6COOH Coconuts and breast milk
9 Pelargonic acid Nonanoic acid CH3(CH2)7COOH Pelargonium
10 Capric acid Decanoic acid CH3(CH2)8COOH
12 Lauric acid Dodecanoic acid CH3(CH2)10COOH Coconut oil
16 Palmitic acid Hexadecanoic acid CH3(CH2)14COOH Palm oil
18 Stearic acid Octadecanoic acid CH3(CH2)16COOH Some waxes, soaps, and oils

Other carboxylic acids include:

  • Short-chain unsaturated monocarboxylic acids
    • Acrylic acid (2-propenoic acid) – CH2=CHCOOH, used in polymer synthesis
  • Fatty acids – medium to long-chain saturated and unsaturated monocarboxylic acids, with even number of carbons
  • Aromatic carboxylic acids
    • Benzoic acid – C6H5COOH; sodium benzoate, the sodium salt of benzoic acid is used as a food preservative
    • Salicylic acid – found in many skin care products

[edit] See also

Wikimedia Commons has media related to:

[edit] References

  1. ^ Compendium of Chemical Terminology, carboxylic acids, accessed 15 Jan 2007.
  2. ^ a b R.T. Morrison, R.N. Boyd. Organic Chemistry, 6th Ed. (1992) ISBN 0-13-643669-2.
  3. ^ Organic Syntheses, Coll. Vol. 3, p.234 (1955); Vol. 24, p.38 (1944) Link
  4. ^ Organic Syntheses, Coll. Vol. 3, p.237 (1955); Vol. 24, p.41 (1944) Link.

[edit] External links


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