Citric acid

Citric acid
Citric acid
Identifiers
CAS number 77-92-9 YesY
PubChem 311
ChemSpider 305 YesY
UNII XF417D3PSL YesY
DrugBank DB04272
KEGG D00037 YesY
ChEBI CHEBI:30769 YesY
ChEMBL CHEMBL1261 YesY
Jmol-3D images Image 1
Properties
Molecular formula C6H8O7
Molar mass 192.124 g/mol (anhydrous)
210.14 g/mol (monohydrate)
Appearance crystalline white solid
Density 1.665 g/cm3(1.5g/cm3 for monohydrate)
Melting point

153 °C, 426 K, 307 °F

Boiling point

175 °C, 448 K, 347 °F (decomposes)

Solubility in water 73 g/100 ml (20 °C)
Acidity (pKa) pKa1 = 3.09
pKa2 = 4.75
pKa3 = 5.41 [1]
Hazards
Main hazards skin and eye irritant
Related compounds
Related compounds sodium citrate, calcium citrate
 YesY (verify) (what is: YesY/N?)
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)
Infobox references

Citric acid is a weak organic acid. It is a natural preservative/conservative and is also used to add an acidic, or sour, taste to foods and soft drinks. In biochemistry, the conjugate base of citric acid, citrate, is important as an intermediate in the citric acid cycle, and therefore occurs in the metabolism of virtually all living things.

Citric acid is a commodity chemical, and more than a million tonnes are produced every year by fermentation. It is used mainly as an acidifier, as a flavoring, and as a chelating agent.

Contents

Properties

Citric acid crystal under polarized light, enlarged 200x

At room temperature, citric acid is a white crystalline powder. It can exist either in an anhydrous (water-free) form or as a monohydrate. The anhydrous form crystallizes from hot water, whereas the monohydrate forms when citric acid is crystallized from cold water. The monohydrate can be converted to the anhydrous form by heating above 78°C. Citric acid also dissolves in absolute (anhydrous) ethanol (76 parts of citric acid per 100 parts of ethanol) at 15°C.

In chemical structure, citric acid shares the properties of other carboxylic acids. When heated above 175°C, it decomposes through the loss of carbon dioxide and water (see decarboxylation).

Citric acid is a slightly stronger acid than typical carboxylic acids because the anion can be stabilized by intramolecular hydrogen-bonding from other protic groups on citric acid.

Discovery and production

Lemons, oranges, limes, and other citrus fruits possess high concentrations of citric acid

The discovery of citric acid has been credited to the 8th century Persian alchemist Jabir Ibn Hayyan (Geber).[2] Medieval scholars in Europe were aware of the acidic nature of lemon and lime juices; such knowledge is recorded in the 13th century encyclopedia Speculum Maius (The Great Mirror), compiled by Vincent of Beauvais.[citation needed] Citric acid was first isolated in 1784 by the Swedish chemist Carl Wilhelm Scheele, who crystallized it from lemon juice.[3][4] Industrial-scale citric acid production began in 1890 based on the Italian citrus fruit industry.

In 1893, C. Wehmer discovered Penicillium mold could produce citric acid from sugar. However, microbial production of citric acid did not become industrially important until World War I disrupted Italian citrus exports. In 1917, the American food chemist James Currie discovered certain strains of the mold Aspergillus niger could be efficient citric acid producers, and Pfizer began industrial-level production using this technique two years later, followed by Citrique Belge in 1929.

In this production technique, which is still the major industrial route to citric acid used today, cultures of A. niger are fed on a sucrose or glucose-containing medium to produce citric acid. The source of sugar is corn steep liquor, molasses, hydrolyzed corn starch or other inexpensive sugary solutions.[5] After the mold is filtered out of the resulting solution, citric acid is isolated by precipitating it with lime (calcium hydroxide) to yield calcium citrate salt, from which citric acid is regenerated by treatment with sulfuric acid.

Other methods

Prior to the fermentative process, ascorbic acid was isolated from citrus fruits. The juice as treated with lime (CaO) to precipitate calcium citrate, which was isolated and converted back to the acid.[3]

In 2007, world wide annual production stood at approximately 1,600,000 tonnes.[6] More than 50% of this volume was produced in China. More than 50% was used as acidulent in beverages, some 20% in other food applications, 20% for detergent applications and 10% for related applications other than food, such as cosmetics, pharma and in the chemical industry.

Occurrence

Citric acid exists in greater than trace amounts in a variety of fruits and vegetables, most notably citrus fruits. Lemons and limes have particularly high concentrations of the acid; it can constitute as much as 8% of the dry weight of these fruits (about 47 g/L in the juices[7]). The concentrations of citric acid in citrus fruits range from 0.005 mol/L for oranges and grapefruits to 0.30 mol/L in lemons and limes. Within species, these values vary depending on the cultivar and the circumstances in which the fruit was grown.

Biochemistry

Citric acid cycle

Citrate, the conjugate base of citric acid is one of a series of compounds involved in the physiological oxidation of fats, proteins, and carbohydrates to carbon dioxide and water.

This series of chemical reactions is central to nearly all metabolic reactions, and is the source of two-thirds of the food-derived energy in higher organisms. Hans Adolf Krebs received the 1953 Nobel Prize in Physiology or Medicine for the discovery. The series of reactions is known by various names, including the "citric acid cycle", the "Krebs cycle" or "Szent-Györgyi — Krebs cycle", and the "tricarboxylic acid (TCA) cycle". Click on genes, proteins and metabolites below to link to respective articles.[8]

[[File:
TCACycle_WP78 Go to article Go to article Go to article Go to article search for article Go to article Go to article go to article Go to article search for article go to article Go to article go to article Go to article Go to article go to article go to article Go to article go to article go to article go to article Go to article Go to article go to article go to article Go to article Go to article go to article go to article go to article go to article Go to article Go to article Go to article Go to article Go to article Go to article Go to article Go to article Go to article Go to article Go to article Go to article go to article
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
[[ ]]
TCACycle_WP78 Go to article Go to article Go to article Go to article search for article Go to article Go to article go to article Go to article search for article go to article Go to article go to article Go to article Go to article go to article go to article Go to article go to article go to article go to article Go to article Go to article go to article go to article Go to article Go to article go to article go to article go to article go to article Go to article Go to article Go to article Go to article Go to article Go to article Go to article Go to article Go to article Go to article Go to article Go to article go to article
|{{{bSize}}}px]]
Citric_acid_cycle edit

Other biological roles

Citrate is a critical component of bone, helping to regulate the size of calcium crystals.[9]

Citrate is an inhibitor of phosphofructokinase, which helps regulate the rate of glycolysis (and subsequently the citric acid cycle) in the cell.

  • citric acid is also used to remove fatty acids in blood vessels and to lower blood pressure.

Applications

The dominant use of citric acid is as a flavoring and preservative in food and beverages, especially soft drinks.[3] Within the European Union it is denoted by E number E330. Citrate salts of various metals are used to deliver those minerals in a biologically available form in many dietary supplements. The buffering properties of citrates are used to control pH in household cleaners and pharmaceuticals. In the United States the purity requirements for citric acid as a food additive are defined by the Food Chemical Codex, which is published by the United States Pharmacopoeia (USP).

Foods, other

Citric acid can be added to e.g. ice cream as an emulsifying agent to keep fats from separating, to caramels to prevent sucrose crystallization, or to recipes in place of fresh lemon juice. Citric acid is used with sodium bicarbonate in a wide range of effervescent formulae, both for ingestion (e.g., powders and tablets) and for personal care (e.g., bath salts, bath bombs, and cleaning of grease).

Citric acid sold in a dry powdered form is commonly sold in markets and groceries as "sour salt", due to its physical resemblance to table salt. It has use in culinary applications where an acid is needed for either its chemical properties or for its sour flavor, but a dry ingredient is needed and additional flavors are unwanted (e.g., instead of vinegar or lemon juice).

Cleaning and chelating agent

Citric acid is an excellent chelating agent, binding metals. It is used to remove scale from boilers and evaporators.[3] It can be used to soften water, which makes it useful in soaps and laundry detergents. By chelating the metals in hard water, it lets these cleaners produce foam and work better without need for water softening. Citric acid is the active ingredient in some bathroom and kitchen cleaning solutions. A solution with a 6% concentration of citric acid will remove hard water stains from glass without scrubbing. In industry, it is used to dissolve rust from steel. Citric acid can be used in shampoo to wash out wax and coloring from the hair.

Illustrative of its chelating abilities, citric acid was the first successful eluant used for total ion-exchange separation of the lanthanides, during the Manhattan Project in the 1940s. In the 1950s, it was replaced by the far more efficient EDTA. It can be used to slow setting of Portland cement. It can delay setting time substantially.

Cosmetics and pharmaceuticals

  • Citric acid is commonly used as a buffer to increase the solubility of brown heroin. Single-use citric acid sachets have been used as an inducement to get heroin users to exchange their dirty needles for clean needles in an attempt to decrease the spread of AIDS and hepatitis.[10] Other acidifiers used for brown heroin are ascorbic acid, acetic acid, and lactic acid; in their absence, a drug user will often substitute lemon juice or vinegar.
  • Citric acid is used as one of the active ingredients in the production of antiviral tissues.[11]

Dyeing

Citric acid can be used in food coloring to balance the pH level of a normally basic dye. It is used as an odorless alternative to white vinegar for home dyeing with acid dyes.

Photography

Compendial status

See also

Notes

  1. ^ Dawson, R. M. C.; et al. (1959). Data for Biochemical Research. Oxford: Clarendon Press. 
  2. ^ Derewenda, Zygmunt S. (2007). "On wine, chirality and crystallography". Acta Crystallographica Section A 64 (1): 246–258. doi:10.1107/S0108767307054293. ISSN 0108-7673. PMID 18156689. http://journals.iucr.org/a/issues/2008/01/00/sc5012/index.html. 
  3. ^ a b c d Frank H. Verhoff (2005), "Citric Acid", Ullmann's Encyclopedia of Industrial Chemistry, Weinheim: Wiley-VCH 
  4. ^ Graham, Thomas (1842). Elements of chemistry, including the applications of the science in the arts. Hippolyte Baillière, foreign bookseller to the Royal College of Surgeons, and to the Royal Society, 219, Regent Street.. p. 944. http://books.google.com/?id=OUXOm8bdG1UC&pg=PA944. Retrieved 4 June 2010. 
  5. ^ Lotfy, Walid A.; Ghanem, Khaled M.; El-Helow, Ehab R. (2007). "Citric acid production by a novel Aspergillus niger isolate: II. Optimization of process parameters through statistical experimental designs". Bioresource Technology 98 (18): 3470–3477. doi:10.1016/j.biortech.2006.11.032. 
  6. ^ Citric Acid Production. PMID 17875481. 
  7. ^ Penniston KL, Nakada SY, Holmes RP, Assimos DG (2008). "Quantitative Assessment of Citric Acid in Lemon Juice, Lime Juice, and Commercially-Available Fruit Juice Products" (PDF). Journal of Endourology 22 (3): 567–70. doi:10.1089/end.2007.0304. PMC 2637791. PMID 18290732. http://www.liebertonline.com/doi/pdfplus/10.1089/end.2007.0304. 
  8. ^ The interactive pathway map can be edited at WikiPathways: "TCACycle_WP78". http://www.wikipathways.org/index.php/Pathway:WP78. 
  9. ^ Hu, Y.- Y.; Rawal, A.; Schmidt-Rohr, K. (2010). "Strongly bound citrate stabilizes the apatite nanocrystals in bone". Proceedings of the National Academy of Sciences 107: 22425. doi:10.1073/pnas.1009219107. 
  10. ^ Garden, J., Roberts, K., Taylor, A., and Robinson, D. (2003). "Evaluation of the Provision of Single Use Citric Acid Sachets to Injecting Drug Users" (pdf). Scottish Center for Infection and Environmental Health.
  11. ^ "Tissues that fight germs". CNN. 2004-07-14. http://money.cnn.com/2004/07/14/news/fortune500/kleenex/. Retrieved 2008-05-08. 
  12. ^ British Pharmacopoeia Commission Secretariat (2009). "Index, BP 2009". http://www.pharmacopoeia.co.uk/pdf/2009_index.pdf. Retrieved 4 February 2010. 
  13. ^ "Japanese Pharmacopoeia, Fifteenth Edition". 2006. http://jpdb.nihs.go.jp/jp15e/JP15.pdf. Retrieved 4 Februally 2010. 

References

External links


Wikimedia Foundation. 2010.

Игры ⚽ Поможем сделать НИР

Look at other dictionaries:

  • Citric acid — Citric Cit ric, a. [Cf. F. citrique. See {Citron}.] (Chem.) Of, pertaining to, or derived from, the citron or lemon; as, citric acid. [1913 Webster] {Citric acid} (Chem.), an organic acid, {C3H4OH.(CO2H)3}, extracted from lemons, currants,… …   The Collaborative International Dictionary of English

  • citric acid — ► NOUN ▪ a sharp tasting acid present in the juice of lemons and other sour fruits. DERIVATIVES citrate noun …   English terms dictionary

  • citric acid — 2 Hydroxypropane 1,2,3 tricarboxylic acid; the acid of citrus fruits, widely distributed in nature and a key intermediate in intermediary metabolism. * * * cit·ric acid .si trik n a sour organic acid C6H8O7 occurring in cellular metabolism,… …   Medical dictionary

  • citric acid — a white, crystalline, water soluble powder, C6H8O7·H2O, a tribasic acid having a strong acidic taste, an intermediate in the metabolism of carbohydrates occurring in many fruits, esp. limes and lemons, obtained chiefly by fermentation of crude… …   Universalium

  • citric acid — noun A colourless crystalline compound, 2 hydroxy 1,2,3 propanetricarboxylic acid, CHO, found in citrous fruit; it is used as a food additive and in the manufacture of citrates. Syn: E330, antioxidant See Also …   Wiktionary

  • citric acid — [[t]sɪ̱trɪk æ̱sɪd[/t]] N UNCOUNT Citric acid is a weak acid found in many kinds of fruit, especially citrus fruit such as oranges and lemons …   English dictionary

  • citric acid — an organic acid found naturally in citrus fruits. Citric acid is formed in the first stage of the Krebs cycle, the important energy producing cycle in the body …   The new mediacal dictionary

  • citric acid — citrinų rūgštis statusas T sritis chemija formulė HOC(COOH)(CH₂COOH)₂ atitikmenys: angl. citric acid; lemon acid rus. лимонная кислота ryšiai: sinonimas – 2 hidroksi 1,2,3 propantrikarboksirūgštis …   Chemijos terminų aiškinamasis žodynas

  • Citric acid intolerance — is a little known type of food intolerance in which sufferers report various symptoms in response to foods or other products containing citric acid that they attribute neither to its properties as an acid nor to an Aspergillus niger… …   Wikipedia

  • Citric acid/potassium-sodium citrate — is a drug used in the treatment of metabolic acidosis (a disorder in which the blood is too acidic). External links * [http://www.cancer.gov/Templates/db alpha.aspx?CdrID=44328 Citric acid/potassium sodium citrate] entry in the public domain NCI… …   Wikipedia

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”