Organic acid anhydride
Organic acid anhydride
An organic acid anhydride[citation needed] is an acid anhydride that is an organic compound. An acid anhydride is a compound that has two acyl groups bonded to the same oxygen atom.[1] A common type of organic acid anhydride is a carboxylic anhydride, where the parent acid is a carboxylic acid, the formula of the anhydride being (RC(O))2O. Symmetrical acid anhydrides of this type are named by replacing the word acid in the name of the parent carboxylic acid by the word anhydride.[2] Thus, (CH3CO)2O is called acetic anhydride. Mixed (or unsymmetrical) acid anhydrides, such as acetic formic anhydride (see below), are known, whereby reaction occurs between two different carboxylic acids. Nomenclature of unsymmetrical acid anhydrides list the names of both of the reacted carboxylic acids before the word "anhydride" (for example, the dehydration reaction between benzoic acid and propanoic acid would yield "benzoic propanoic anhydride").[3]
One or both acyl groups of an acid anhydride may also be derived from another type of organic acid, such as sulfonic acid or a phosphonic acid. One of the acyl groups of an acid anhydride can be derived from an inorganic acid such as phosphoric acid. The mixed anhydride 1,3-bisphosphoglyceric acid, an intermediate in the formation of ATP via glycolysis,[4] is the mixed anhydride of 3-phosphoglyceric acid and phosphoric acid. Acidic oxides are also classified as acid anhydrides.
Preparation[edit]
Organic acid anhydrides are prepared in industry by diverse means. Acetic anhydride is mainly produced by the carbonylation of methyl acetate.[5] Maleic anhydride is produced by the oxidation of benzene or butane. Laboratory routes emphasize the dehydration of the corresponding acids. The conditions vary from acid to acid, but phosphorus pentoxide is a common dehydrating agent:
- 2 CH3COOH + P4O10 → CH3C(O)OC(O)CH3 + "P4O9(OH)2"
Acid chlorides are also effective precursors:[6]
- CH3C(O)Cl + HCO2Na → HCO2COCH3 + NaCl
Mixed anhydrides containing the acetyl group are prepared from ketene:
- RCO2H + H2C=C=O → RCO2C(O)CH3
Reactions[edit]
Acid anhydrides are a source of reactive acyl groups, and their reactions and uses resemble those of acyl halides. In reactions with protic substrates, the reactions afford equal amounts of the acylated product and the carboxylic acid:
- RC(O)OC(O)R + HY → RC(O)Y + RCO2H
for HY = HOR (alcohols), HNR'2 (ammonia, primary, secondary amines), aromatic ring (see Friedel-Crafts acylation).
Acid anhydrides tend to be less electrophilic than acyl chlorides, and only one acyl group is transferred per molecule of acid anhydride, which leads to a lower atom efficiency. The low cost, however, of acetic anhydride makes it a common choice for acetylation reactions.
Applications and occurrence of acid anhydrides[edit]
Acetic anhydride is produced on a large scale for many applications.
Naphthalenetetracarboxylic dianhydride, a building block for complex organic compounds, is an example of a dianhydride.
Maleic anhydride is a cyclic anhydride, widely used to make industrial coatings.
ATP in its protonated form is an anhydride derived from phosphoric acid.
The "mixed anhydride" 1,3-bisphosphoglyceric acid occurs widely in metabolic pathways.
3'-Phosphoadenosine-5'-phosphosulfate (PAPS) is a mixed anhydride of sulfuric and phosphoric acids and is the most common coenzyme in biological sulfate transfer reactions.
Acetic anhydride is a major industrial chemical widely used for preparing acetate esters, e.g. cellulose acetate. Maleic anhydride is the precursor to various resins by copolymerization with styrene. Maleic anhydride is a dienophile in the Diels-Alder reaction.[7]
Dianhydrides, molecules containing two acid anhydride functions, are used to synthesize polyimides and sometimes polyesters and polyamides. Examples of dianhydrides: pyromellitic dianhydride (PMDA), 3,3', 4,4' - oxydiphtalic dianhydride (ODPA), 3,3', 4,4'-benzophenone tetracarboxylic dianhydride (BTDA), 4,4'-diphtalic (hexafluoroisopropylidene) anhydride (6FDA), benzoquinonetetracarboxylic dianhydride, ethylenetetracarboxylic dianhydride. Polyanhydrides are a class of polymers characterized by anhydride bonds that connect repeat units of the polymer backbone chain.
Natural products containing acid anhydrides have been isolated from animals, bacteria and fungi.[8][9][10] Examples include cantharidin from species of blister beetle, including the Spanish fly, Lytta vesicatoria, and tautomycin, from the bacterium Streptomyces spiroverticillatus. The maleidride family of fungal secondary metabolites, which possess a wide range of antibiotic and antifungal activity, are alicyclic compounds with maleic anhydride functional groups.[11]
Analogues[edit]
Nitrogen[edit]
Imides are structurally related analogues, where the bridging oxygen is replaced by nitrogen. They are similarly formed by the condensation of dicarboxylic acids with ammonia. The replacement of all oxygen atoms with nitrogen gives imidines, these are a rare functional group which are very prone to hydrolysis.
Sulfur[edit]
Sulfur can replace oxygen, either in the carbonyl group or in the bridge. In the former case, the name of the acyl group is enclosed in parentheses to avoid ambiguity in the name,[2] e.g., (thioacetic) anhydride (CH3C(S)OC(S)CH3). When two acyl groups are attached to the same sulfur atom, the resulting compound is called a thioanhydride,[2] e.g., acetic thioanhydride ((CH3C(O))2S).
See also[edit]
Wikiquote has quotations related to: Organic acid anhydride |
- Base anhydride
- Benzoyl peroxide - structurally similar but chemically very different
References[edit]
- ^ IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version: (2006–) "acid anhydrides". doi:10.1351/goldbook.A00072
- ^ a b c Panico R, Powell WH, Richer JC, eds. (1993). "Recommendation R-5.7.7". A Guide to IUPAC Nomenclature of Organic Compounds. IUPAC/Blackwell Science. pp. 123–25. ISBN 0-632-03488-2.
- ^ https://chem.libretexts.org/Bookshelves/Organic_Chemistry/Supplemental_Modules_(Organic_Chemistry)/Anhydrides/Nomenclature_of_Anhydrides
- ^ Nelson, D. L.; Cox, M. M. "Lehninger, Principles of Biochemistry" 3rd Ed. Worth Publishing: New York, 2000. ISBN 1-57259-153-6.
- ^ Zoeller, J. R.; Agreda, V. H.; Cook, S. L.; Lafferty, N. L.; Polichnowski, S. W.; Pond, D. M. "Eastman Chemical Company Acetic Anhydride Process" Catalysis Today (1992), volume 13, pp.73-91. doi:10.1016/0920-5861(92)80188-S
- ^ Lewis I. Krimen (1988). "Acetic Formic Anhydride". Organic Syntheses.; Collective Volume, 6, p. 8
- ^ Heimo Held, Alfred Rengstl, Dieter Mayer "Acetic Anhydride and Mixed Fatty Acid Anhydrides" Ullmann's Encyclopedia of Industrial Chemistry 2002, Wiley-VCH, Weinheim. doi:10.1002/14356007.a01_065
- ^ Saleem, Muhammad; Hussain, Hidayat; Ahmed, Ishtiaq; Draeger, Siegfried; Schulz, Barbara; Meier, Kathrin; Steinert, Michael; Pescitelli, Gennaro; Kurtán, Tibor; Flörke, Ulrich; Krohn, Karsten (February 2011). "Viburspiran, an Antifungal Member of the Octadride Class of Maleic Anhydride Natural Products". European Journal of Organic Chemistry. 2011 (4): 808–812. doi:10.1002/ejoc.201001324.
- ^ Han, Chunguang; Furukawa, Hiroyuki; Tomura, Tomohiko; Fudou, Ryosuke; Kaida, Kenichi; Choi, Bong-Keun; Imokawa, Genji; Ojika, Makoto (24 April 2015). "Bioactive Maleic Anhydrides and Related Diacids from the Aquatic Hyphomycete Tricladium castaneicola". Journal of Natural Products. 78 (4): 639–644. doi:10.1021/np500773s. PMID 25875311.
- ^ Heard, David M.; Tayler, Emyr R.; Cox, Russell J.; Simpson, Thomas J.; Willis, Christine L. (3 January 2020). "Structural and synthetic studies on maleic anhydride and related diacid natural products" (PDF). Tetrahedron. 76 (1): 130717. doi:10.1016/j.tet.2019.130717.
- ^ Chen, Xiaolong; Zheng, Yuguo; Shen, Yinchu (May 2007). "Natural Products with Maleic Anhydride Structure: Nonadrides, Tautomycin, Chaetomellic Anhydride, and Other Compounds". Chemical Reviews. 107 (5): 1777–1830. doi:10.1021/cr050029r. PMID 17439289.
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