Aluminium triacetate

For other aluminium acetate compounds, see aluminium acetate.
Aluminium triacetate
Names
IUPAC name
Aluminium acetate
Other names
Aluminium(III) acetate
Identifiers
3D model (JSmol)
ChEMBL
ChemSpider
DrugBank
ECHA InfoCard 100.004.868 Edit this at Wikidata
EC Number
  • 205-354-1
UNII
  • InChI=1S/3C2H4O2.Al/c3*1-2(3)4;/h3*1H3,(H,3,4);/q;;;+3/p-3
    Key: WCOATMADISNSBV-UHFFFAOYSA-K
  • CC(=O)[O-].CC(=O)[O-].CC(=O)[O-].[Al+3]
Properties
C6H9AlO6
Molar mass 204.114 g·mol−1
Appearance white solid[1]
soluble
Related compounds
Related compounds
 Basic aluminium diacetate (hydroxyaluminium diacetate), CAS RN 142-03-0, HOAl(CH
3CO
2)
2[1]
Dibasic aluminium monoacetate (dihydroxyaluminium acetate), CAS RN 7360-44-3, (HO)
2AlCH
3CO
2
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).

Aluminium triacetate, formally named aluminium acetate,[2] is a chemical compound with composition Al(CH
3CO
2)
3. Under standard conditions it appears as a white, water-soluble solid[1] that decomposes on heating at around 200 °C.[3] The triacetate hydrolyses to a mixture of basic hydroxide / acetate salts,[4] and multiple species co-exist in chemical equilibrium, particularly in aqueous solutions of the acetate ion; the name aluminium acetate is commonly used for this mixed system.

It has therapeutic applications for its anti-itching, astringent, and antiseptic properties,[5] and, as an over-the-counter preparation like Burow's solution,[6] it is used to treat ear infections.[7][8] Burow's solution preparations have been diluted and modified with amino acids to make them more palatable for use as gargles for conditions like aphthous ulcers of the mouth.[9] In veterinary medicine, aluminium triacetate's astringency property is used for treating Mortellaro disease in hoofed animals such as cattle.[10]

Aluminium triacetate is used as a mordant agent with dyes like alizarin,[11] both alone and in combination. Together with aluminium diacetate[12] or with aluminium sulfacetate[13] it is used with cotton, other cellulose fibres,[14] and silk.[13] It has also been combined with ferrous acetate to produce different colours.[15]

Nomenclature

According to the formal rules for naming inorganic compounds, the name for Al(CH
3CO
2)
3 is aluminium acetate,[2] though more formal names like aluminium(III) acetate and aluminium ethanoate are acceptable.[4] The use of the "tri" multiplying prefix in the name aluminium triacetate, while not technically required, is regularly used to avoid potential confusion with related compounds with hydroxo ligands. Basic aluminium diacetate, formally hydroxyaluminium diacetate (CAS RN 142-03-0),[1] has composition HOAl(CH
3CO
2)
2 with one hydroxo ligand in place of an acetate ligand, and dibasic aluminium monoacetate, formally dihydroxyaluminium acetate (CAS RN 7360-44-3), has composition (HO)
2AlCH
3CO
2 with only one acetate ligand. These three compounds are distinct in the solid phase but are usually treated as a group and described collectively as aluminium acetate in solution, due to the triacetate hydrolyzing to a mixture which includes the other two forms.[4] The abbreviation as AlAc, along with variants like AlAc2+
 and AlAc+
2, are sometimes used in the discipline of geochemistry,[16] though these are inconsistent with standard practice in mainstream chemistry.[a]

Structure

The structure of aluminium triacetate as an ionic compound
Structure of aluminium triacetate as a covalent molecular compound
Representations of Al(CH
3CO
2)
3 with ionic (left) and covalent molecular (right) motifs

The formula Al(CH
3CO
2)
3 indicates the presence of aluminium centres in the +3 oxidation state and acetate groups in a ratio of 1:3. Images used to represent this substance, such as those shown at left, represent two highly oversimplified approximations of the solid-state structure: the first is as a purely ionic salt with a single aluminium(III) cation (Al3+) surrounded by and associated electrostatically with three acetate anions (CH
3CO
2), but this should not be taken to convey information about the crystal structure. For example, sodium chloride (NaCl) has a cation-to-anion stoichiometry of 1:1, but it has a cubic structure with each ion surrounded octahedrally by six ions of the opposite charge.[17]

The other image is a molecular form with the three acetate groups covalently bonded to the metal centre in a trigonal planar geometry and intermolecular interactions holding the molecules together with each other in the crystal structure. It is highly likely that the solid state structure is more complicated and includes both covalent and ionic characteristics and it is possible that multiple aluminium centres and / or bridging acetate groups might be present – both of these have been reported in aluminium acetate solution[18] and aluminium chloride is known to exist as a Al
2Cl
6 dimer.[19]

[Fe33–O)(OAc)6(H2O)3]+, the cation found in iron(III) acetate

NMR investigations of the aqueous aluminium(III) / acetate system show the presence of aluminium as a hexaaqua complex, [Al(H
2O)
6]3+
,[20] as well as mononuclear species with different substitutions. In addition, the investigations demonstrate that a significant solution-phase species is an Al
13 tridecamer,[21] a moiety reported in conflicting mechanisms of hydrolysis and polymerisation aluminium solutions.[22] Other trivalent metal cations are known to form polynuclear species: iron(III) acetate, for example, forms a trinuclear structure[23] with a triply-bridged oxo centre[24] with the cation [Fe3(μ3–O)(OAc)6(H2O)3]+.[25] The compound chromium acetate hydroxide, Cr3(OH)2(OAc)7, has also been described as isostructural.[26] Analogous ruthenium(III), vanadium(III), rhodium(III), and iridium(III) compounds with trinuclear structures are known.[27] Copper(II) acetate and chromium(II) acetate both have dinuclear dihydrate structures, M2(OAc)4(H2O)2,[28] as does rhodium(II) acetate;[29] each shows significant metal-metal bonding interactions.[28][29]

Chemistry

Preparation

According to the CRC Handbook of Inorganic Compounds, aluminium triacetate is a white, water-soluble solid and is usually prepared from aluminium chloride or directly from aluminium by heating in an acetic acid solution with acetic anhydride.[1]

3 CH
3COOH   +   AlCl
3   →   Al(CH
3CO
2)
3   +   3 HCl
6 CH
3COOH   +   2 Al   →   2 Al(CH
3CO
2)
3   +   3 H
2

Theoretically all of the aluminium / acetate / hydroxide salts can be prepared from aluminium hydroxide or sodium aluminate and acetic acid, but formation of the triacetate only occurs in the absence of water.[4] In solutions, the diacetate is the major product formed, and is also produced when aluminium chloride is treated with a sodium acetate solution in basic conditions.[30] The equations for these processes are:

2 CH
3CO
2Na   +   Al(OH)
3   →   Al(CH
3CO
2)
2OH   +   2 NaOH
2 CH
3CO
2Na   +   AlCl
3   +   NaOH   →   Al(CH
3CO
2)
2OH   +   3 NaCl
2 CH
3CO
2Na   +   NaAlO
2   +   2 H
2O   →   Al(CH
3CO
2)
2OH   +   3 NaOH

An improved process using a combination of aluminium chloride and sodium aluminate with sodium acetate prepared in situ has been patented:[31]

29 NaAlO
2   +   10 NaOH   + 84 CH
3COOH   +   13 AlCl
3   →   42 Al(CH
3CO
2)
2OH   +   39 NaCl   +   26 H
2O

The mordants aluminium triacetate and aluminium sulfacetate can be prepared from aluminium sulfate, the product formed being determined by the amount of lead(II) acetate used:[13]

Al
2(SO
4)
3   +   3 Pb(CH
3CO
2)
2   →   2 Al(CH
3CO
2)
3   +   3 PbSO
4
Al
2(SO
4)
3   +   2 Pb(CH
3CO
2)
2   →   Al
2SO
4(CH
3CO
2)
4   +   2 PbSO
4

Decomposition

On heating, aluminium triacetate decomposes above 200 °C in a process similar to that of aluminium formate.[3] The process begins with loss of acetic anhydride (Ac
2O) between 120 and 140 °C[1] to form the a mixture of the basic oxide acetates such as Al
2O(CH
3CO
2)
4 and Al
3O(CH
3CO
2)
7,[30] which are ultimately transformed to Al
2O
3 (alumina), first as an amorphous anhydrous solid and then through other solid phases (γ-, δ-, and θ- crystal forms) to ultimately become polymorphic α-Al
2O
3:[3]

2 Al(CH
3CO
2)
3   →   Al
2O(CH
3CO
2)
4   +   CH
3CO(O)COCH
3   →   Al
2O
3   +   3 CH
3CO(O)COCH
3
2 Al(CH
3CO
2)
2OH   →   Al
2O
3   +   2 CH
3COOH   +   CH
3CO(O)COCH
3

Hydrolysis

Aluminium triacetate hydrolyses to produce both the mono- and di-basic hydroxide acetates in solution or by hygroscopy:[4]

Al(CH
3CO
2)
3   +   H
2O   →   Al(CH
3CO
2)
2OH   +   CH
3COOH
Al(CH
3CO
2)
3   +   2 H
2O   →   Al(CH
3CO
2)(OH)
2   +   2 CH
3COOH

Uses

According to the National Cancer Institute, the aluminium acetates are used topically in humans as antiseptic agents, which also cause body tissues to shrink.[5] Its astringency property is also used for treating Mortellaro disease in hoofed animals such as cattle.[10] Aluminium acetate promotes healing of infected skin and also assists with inflammation, itching, and stinging.[5] The Food and Drug Administration has approved it for use for "temporary relief of minor skin irritations due to ... 'poison ivy,' 'poison oak,' 'poison sumac,' 'insect bites,' 'athlete's foot,' or 'rashes caused by soaps, detergents, cosmetics, or jewelry.'"[32] For these applications, over-the-counter preparations such as Burow's solution are typically used,[6] while diluted forms are used as gargles for conditions like aphthous ulcers of the mouth, including with amino acid additives to improve palatability and taste.[9] The most common use of Burow's solution is in treating ear infections[7][8] including otomycosis, though it is generally not as effective as clotrimazole in these fungal infections.[33] Topical astringent powder Domeboro contains aluminium sulfate tetradecahydrate, [Al(H
2O)
6]
2(SO
4)
3•2H
2O, and calcium acetate monohydrate, Ca(CH
3CO
2)
2•H
2O, and forms an aluminium acetate solution similar to Burow's solution when dissolved.[34] Domeboro solutions in warm water can be used in cases of ingrown toenails,[35] to reduce irritation and contain any infection which might be present.

Mordant

Kiel and Heertjes' structure for the anion of Ca[Al(H
2O)(OH)Az
2]•2H
2O,[36] which alizarin forms with an aluminium mordant

A mordant is a substance used to set dyes on fabrics or tissue sections by forming a coordination complex with the dye, which subsequently attaches to the fabric or tissue.[37] A mordant often contains a polyvalent metal ion, commonly aluminium or iron,[38] as is the case with mixtures of aluminium triacetate with aluminium sulfacetate[13] or with basic aluminium diacetate.[12] Aluminium triacetate mordants have been used with cotton, other cellulose-based fibres,[14] and silk.[13] They have also been combined with ferrous acetate to produce different colours.[15]

Wunderlich and Bergerhoff's structure for alizarin bound to an aluminium mordant as CaAz
2Al(μ-OH)
2AlAz
2Ca[11]

In the case of the dye alizarin (1,2-dihydroxyanthraquinone, H
2Az), mordanting was hypothesised to involve the formation of a dianion of alizarin. This would form a five-coordinate aluminium complex, CaAl(OH)Az
2,[39] which can take up water to form a hydrate with a six-coordinate aluminium-centred dianion, Ca[Al(H
2O)(OH)Az
2]•2H
2O.[40] The proposal was based on infrared spectroscopic data, and was subsequently challenged by work suggesting a structure with two bridging hydroxyl ligands connecting a dinuclear core, Az
2Al(μ-OH)
2AlAz4−
2, with two alizarin moieties each chelating to each aluminium centre.[36] The structure was proposed by Soubayrol et al. based on 27Al NMR spectroscopy and electrospray ionisation mass spectrometry evidence.[41] They reported that the degree of hydration was dependent on the identity of the counter-ion, with the sodium salt being a stable tetrahydrate with a monohydrate being formed from potassium hydroxide. These were distinguishable based on their chemical shifts, suggesting the waters are associating with the aluminium centres or the alizarin moieties, and not behaving as is typical for waters of crystallisation.[41]

A related structure with calcium ions was reported in 1994, and in it the alizarins chelate to the calcium ions to form AzCaAz bridges between the aluminium centres (which are also bridged by hydroxo groups) and the aluminium centres subsequently bind to the deprotonated phenol residues of the dye;[11] in the Soubayrol model, each alizarin is associated with a single aluminium cation.[41] As with the structure of aluminium acetate itself, the forms it takes in applications has not been resolved.

Notes

a This "Ac" is not referring to the element actinium. Used in this way, the convention in organic chemistry is for Ac to refer to the acetyl group, the radical form of which is CH
3CO,[42] and OAc or AcO would be used for the acetate radical, CH
3CO
2,[43] sometimes also called "acetoxy." The acetate ion would then be AcO, CH
3CO
2, and acetic acid would be AcOH or HOAc. Under this convention, aluminium triacetate would be Al(OAc)3. Publications in geochemistry, however, are using Ac to refer to acetate rather than acetyl and thus AlAc+
2 in geochemistry would be written under more usual chemistry conventions as [Al(OAc)
2]+
 or [Al(CH
3CO
2)
2]+
.

References

  1. ^ a b c d e f Perry, Dale L.; Phillips, Sidney L., eds. (1995). Handbook of Inorganic Compounds. CRC Press. p. 3. ISBN 9780849386718.
  2. ^ a b International Union of Pure and Applied Chemistry (2005). Nomenclature of Inorganic Chemistry IUPAC Recommendations 2005 (PDF). RSC Publishing. ISBN 0854044388.
  3. ^ a b c Sato, Taichi; Ikoma, Shuji; Ozawa, Fusaji (1984). "Thermal decomposition of organic basic aluminium salts—formate and acetate". Thermochim. Acta. 75 (1–2): 129–137. Bibcode:1984TcAc...75..129S. doi:10.1016/0040-6031(84)85013-3.
  4. ^ a b c d e Daintith, John, ed. (2008). "Aluminium ethanoate (aluminium acetate)". A Dictionary of Chemistry (6th ed.). Oxford University Press. ISBN 9780191726569.
  5. ^ a b c "Aluminum Acetate (Code C47387)". National Cancer Institute thesaurus (NCIt). October 31, 2016. Archived from the original on December 16, 2016. Retrieved November 15, 2016.
  6. ^ a b "Acetic acid / aluminum acetate solution". Drugs.com. 3 November 2016. Retrieved 23 November 2016.
  7. ^ a b Thorp, M. A.; Kruger, J.; Oliver, S.; Nilssen, E. L. K.; Prescott, C. A. J. (1998). "The antibacterial activity of acetic acid and Burow's solution as topical otological preparations". J. Laryng. Otol. 112 (10): 925–928. doi:10.1017/S0022215100142100. PMID 10211213. S2CID 29258555.
  8. ^ a b Kashiwamura, Masaaki; Chida, Eiji; Matsumura, Michiya; Nakamaru, Yuuji; Suda, Noriyuki; Terayama, Yoshihiko; Fukuda, Satoshi (2004). "The Efficacy of Burow's Solution as an Ear Preparation for the Treatment of Chronic Ear Infections". Otol. Neurotol. 25 (1): 9–13. doi:10.1097/00129492-200401000-00002. PMID 14724484. S2CID 7562816.
  9. ^ a b US granted 5250569, Godfrey, John C., "Amino acid flavorings of aluminum astringent for oral use", published 1993-10-05, issued 1993-10-05, assigned to Godfrey Science & Design, Inc. 
  10. ^ a b US granted 8703104, Morelli, Joseph P.; Fernandes, Jeffrey R. & Verkaar, Edward L. C. et al., "Use of metal astringents for the treatment of hairy heel warts", published 2014-04-22, assigned to Ecolab USA Inc. 
  11. ^ a b c Wunderlich, Christian-Heinrich; Bergerhoff, Günter (1994). "Konstitution und Farbe von Alizarin- und Purpurin-Farblacken". Chem. Ber. (in German). 127 (7): 1185–1190. doi:10.1002/cber.19941270703.
  12. ^ a b Haar, Sherry; Schrader, Erica; Gatewood, Barbara M. (2013). "Comparison of aluminum mordants on the colorfastness of natural dyes on cotton" (PDF). Cloth. & Textiles Res. J. 31 (2): 97–108. doi:10.1177/0887302X13480846. hdl:2097/16316. S2CID 56218102.
  13. ^ a b c d e Georgievics, Von (2013). The Chemical Technology of Textile Fibres – Their Origin, Structure, Preparation, Washing, Bleaching, Dyeing, Printing and Dressing. Read Books. ISBN 9781447486121.
  14. ^ a b Brown, Donna; de Souza, Diane; Ellis, Catharine (2010). "How to Mordant Cotton—let me count the ways". Turkey Red Journal. 15 (2). Archived from the original on 2021-02-27. Retrieved 2016-11-23.
  15. ^ a b Ellis, Catharine (2016). "Transformative Processes". The Weaver's Studio   Woven Shibori. F+W Media, Inc. pp. 83–84. ISBN 9781632503541.[permanent dead link]
  16. ^ Wesolowski, D. J.; Blencoe, J. G.; Cole, D. R.; Bell, J. L. S.; Palmer, D. A. (1992). "Geochemistry of Crustal Processes to High Temperatures and Pressures". Summaries of FY 92 Geosciences Research (PDF). United States Department of Energy. pp. 38–44.
  17. ^ Myerson, Allan S.; Ginde, Rajiv (2002). "Crystals, Crystal Growth, and Nucleation". In Myerson, Allan S. (ed.). Handbook of Industrial Crystallization (2nd ed.). Butterworth-Heinemann. p. 37. ISBN 9780080533513.
  18. ^ Alcock, Nathaniel W.; Tracy, Valerie M.; Waddington, Thomas C. (1976). "Acetates and acetato-complexes. Part 2. Spectroscopic studies". J. Chem. Soc., Dalton Trans. 1976 (21): 2243–2246. doi:10.1039/DT9760002243.
  19. ^ Daintith, John, ed. (2008). "ALuminium chloride". A Dictionary of Chemistry (6th ed.). Oxford University Press. ISBN 9780191726569.
  20. ^ Kubicki, J. D.; Sykes, D.; Apitz, S. E. (1999). "Ab Initio Calculation of Aqueous Aluminum and Aluminum−Carboxylate Complex Energetics and 27Al NMR Chemical Shifts". J. Phys. Chem. A. 103 (7): 903–915. Bibcode:1999JPCA..103..903K. doi:10.1021/jp983462w.
  21. ^ Thomas, Fabien; Masion, Armand; Bottero, Jean Yves; Rouiller, James; Genevrier, Francine; Boudot, Denis (1991). "Aluminum(III) Speciation with Acetate and Oxalate. A Potentiometric and 27Al NMR Study". Environ. Sci. Technol. 25 (9): 1553–1559. doi:10.1021/es00021a004.
  22. ^ Bi, Shuping; Wang, Chenyi; Cao, Qing; Zhang, Caihua (2004). "Studies on the mechanism of hydrolysis and polymerization of aluminum salts in aqueous solution: correlations between the "Core-links" model and "Cage-like" Keggin-Al13 model". Coord. Chem. Rev. 248 (5–6): 441–455. doi:10.1016/j.ccr.2003.11.001.
  23. ^ Weinland, R.; Dinkelacker, P. (1909). "Über Salze einer Hexaacetato(formiato)-trichrombase. II". Ber. Dtsch. Chem. Ges. (in German). 42 (3): 2997–3018. doi:10.1002/cber.19090420318.
  24. ^ Figgis, B. N.; Robertson, G. B. (1965). "Crystal-Molecular Structure and Magnetic Properties of Cr3(CH3.COO)6OCl.5H2O". Nature. 205 (4972): 694–695. Bibcode:1965Natur.205..694F. doi:10.1038/205694a0. S2CID 4283321.
  25. ^ Burgess, J.; Twigg, M. V. (2005). King, R. Bruce (ed.). Encyclopedia of Inorganic Chemistry (10th ed.). Wiley. ISBN 9780470860786.
  26. ^ "Chromium(III) Acetate Hydroxide". chemicalbook.com. The chemical book. 2016. Retrieved 18 November 2016.
  27. ^ Catterick, Janet; Thornton, Peter (1977). "Structures and Physical Properties of Polynuclear Carboxylates". In Emeléus, H. J.; Sharpe, A. G. (eds.). Advances in Inorganic Chemistry and Radiochemistry. Vol. 20. Academic Press. pp. 291–362. ISBN 9780080578699.
  28. ^ a b Van Niekerk, J. N.; Schoening, F. R. L. (1953). "X-Ray Evidence for Metal-to-Metal Bonds in Cupric and Chromous Acetate". Nature. 171 (4340): 36–37. Bibcode:1953Natur.171...36V. doi:10.1038/171036a0. S2CID 4292992.
  29. ^ a b Cotton, F. A.; Deboer, B. G.; Laprade, M. D.; Pipal, J. R.; Ucko, D. A. (1971). "The crystal and molecular structures of dichromium tetraacetate dihydrate and dirhodium tetraacetate dihydrate" (PDF). Acta Crystallogr. B. 27 (8): 1664. Bibcode:1971AcCrB..27.1664C. doi:10.1107/S0567740871004527.
  30. ^ a b Wade, K.; Banister, A. J. (1973). "The Chemistry of Aluminium, Gallium, Indium and Thallium". In Bailar, J. C.; Emeléus, H. J.; Nyholm, R. (eds.). Comprehensive Inorganic Chemistry. Elsevier. p. 1047. ISBN 9781483153223.
  31. ^ US granted 6498262, Jerome, James E.; Fleming, Glenda L. & Swinson, Joel H., "Process for producing aluminum diacetate monobasic", published 2002-12-24, assigned to Chattem Chemicals, Inc. 
  32. ^ Food and Drug Administration (April 1, 2016). "Part 347 – Skin Protectant Drug Products for Over-The-Counter Human Use". CFR – Code of Federal Regulations Title 21. United States Department of Health and Human Services. Retrieved November 15, 2016.
  33. ^ Munguia, Raymundo; Daniel, Sam J. (2008). "Ototopical antifungals and otomycosis: A review". Int. J. Ped. Otorhinolaryng. 72 (4): 453–459. doi:10.1016/j.ijporl.2007.12.005. PMID 18279975.
  34. ^ "Domeboro – aluminum sulfate tetradecahydrate, calcium acetate monohydrate powder, for solution". DailyMed. U.S. National Library of Medicine. 12 May 2016. Retrieved 23 November 2016.
  35. ^ Simon, Harvey (31 January 2013). "Ingrown Toenails". The New York Times. Retrieved 23 November 2016.
  36. ^ a b Atta-ur-Rahman (2002). "Rubia tinctorum L". Bioactive Natural Products (Part G). Studies in Natural Products Chemistry. Vol. 26. Elsevier. pp. 629–684. ISBN 9780080542065.
  37. ^ IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version: (2006–) "mordant". doi:10.1351/goldbook.M04029
  38. ^ Llewellyn, Bryan D. (May 2005). "Stain Theory – How mordants work". Archived from the original on 14 August 2007.
  39. ^ Kiel, E. G.; Heertjes, P. M. (1965). "Metal Complexes of Alizarin V—Investigations of Alizarin–dyed Cotton Fabrics". Coloration Technology. 81 (3): 98–102. doi:10.1111/j.1478-4408.1965.tb02647.x.
  40. ^ Kiel, E. G.; Heertjes, P. M. (1963). "Metal Complexes of Alizarin I—The Structure of the Calcium–Aluminium Lake of Alizarin". Coloration Technology. 79: 21–27. doi:10.1111/j.1478-4408.1963.tb02507.x.
  41. ^ a b c Soubayrol, Patrick; Dana, Gilbert; Man, Pascal P. (1996). "Aluminium-27 Solid-State NMR Study of Aluminium Coordination Complexes of Alizarin". Magnetic Resonance in Chemistry. 34 (8): 638–645. doi:10.1002/(SICI)1097-458X(199608)34:8<638::AID-OMR926>3.0.CO;2-5. S2CID 49575597.
  42. ^ Hanson, James Ralph (2001). Functional group chemistry. Royal Society of Chemistry. p. 11. ISBN 0854046275.
  43. ^ "Common Abbreviations in Organic Chemistry" (PDF). Imperial College. Retrieved 18 November 2016.

Read other articles:

Генеральна схема розробки родовища

Генера́льна схе́ма розро́бки родо́вища (рос.генеральная схема разработки месторождения; англ. general (main) diagram of field development; нім. Hauptschema n der Lagerstättebearbeitung f) — основна, провідна схема, в якій визначаються принципові положення розробки окремих покладів великого родовища. Див. ...

 

 

فاسيلي جيروف

فاسيلي جيروف فاسيلي جيروف (في الأسفل على اليسار) معلومات شخصية الاسم الكامل فاسيلي فالريفيتش جيروف الميلاد 4 أفريل 1974بلقاش، كازاخستان الطول 1,88 م الجنسية كازاخي اللقب The Tiger الحياة العملية المهنة ملاكم[1]  نوع الرياضة الملاكمة  بلد الرياضة كازاخستان  سجل الملاكمة...

 

 

Heinrich Dymsha

El texto que sigue es una traducción defectuosa. Si quieres colaborar con Wikipedia, busca el artículo original y mejora esta traducción.Copia y pega el siguiente código en la página de discusión del autor de este artículo: {{subst:Aviso mal traducido|Heinrich Dymsha}} ~~~~ Henry Kleofasovich Dymsha Henryk Dymsza, miembro de la segunda Duma Estatal de Rusia, 1907Información personalNombre nativo Henryk Zygmunt Stanisław DymszaNacimiento 1856Rushoni estate Kapinsky volost del distrito...

Годо

Годо — український гурт, заснований восени 1998 року у Львові. Назву було взято з роману Семюеля Беккета «Чекаючи на Ґодо». Впродовж існування гурту змінювався склад і стильові відхилення у музиці. Зараз «Годо» виконує інструментальний electro-psycho-fusion і активно виступає в Укра

 

 

فلورين فابيان

هذه المقالة يتيمة إذ تصل إليها مقالات أخرى قليلة جدًا. فضلًا، ساعد بإضافة وصلة إليها في مقالات متعلقة بها. (ديسمبر 2020) فلورين فابيان معلومات شخصية الميلاد 23 أغسطس 1974 (49 سنة)  ساتو ماري  مركز اللعب مهاجم الجنسية رومانيا  معلومات النادي النادي الحالي ريبنسيا تيميشوارا (م

 

 

Darüşşafaka Ayhan Şahenk Sports Hall

Darüşşafaka Ayhan Şahenk Sports HallDarüşşafaka Ayhan Şahenk Sports HallLocationBüyükdere Caddesi, Derbent Mevkisi, Sarıyer, IstanbulCoordinates41°07′35″N 29°01′44″E / 41.12639°N 29.02889°E / 41.12639; 29.02889OwnerTBFCapacityBasketball: 3,500Opened1995TenantsDarüşşafakaWebsitehttps://www.darussafaka.org/hakkimizda/cemiyet/darussafaka-spor-kulubu Darüşşafaka Ayhan Şahenk Sports Hall (Turkish: Darüşşafaka Ayhan Şahenk Spor Salonu) is a ...

Toshiki Sakai

Japanese footballer Toshiki Sakai Autograph in 2017Personal informationFull name Toshiki SakaiDate of birth (1993-09-18) September 18, 1993 (age 30)Place of birth Odawara, Kanagawa, JapanHeight 1.84 m (6 ft 1⁄2 in)Position(s) ForwardYouth career2012–2015 Sendai UniversitySenior career*Years Team Apps (Gls)2016–2017 Blaublitz Akita 27 (1) *Club domestic league appearances and goals Toshiki Sakai (堺 俊暉, Sakai Toshiki, born September 18, 1993) is a Japanese fo...

 

 

Hamed Haddadi

Hamed Haddadiحامد حدادیHaddadi pada 2020No. 5 – Sichuan Blue WhalesPosisiTengahLigaAsosiasi Basket TiongkokInformasi pribadiLahir19 Mei 1985 (umur 38)Ahvaz, IranKebangsaanIranTinggi7 ft 2 in (2,18 m)Berat262 pon (119 kg)Informasi karierDraf NBA2004 / Tidak didrafKarier bermain1999–sekarangRiwayat karier1999–2002Shahin Ahvaz2002–2006Paykan Tehran2003→ Al-Nasr2004→ Sanam Tehran2007–2008Saba Battery Tehran2008–2013Memphis Grizzlies2008

 

 

9 January 1917 German Crown Council meeting

The areas of unrestricted submarine warfare in effect from 1 February 1917 The 9 January 1917 Crown Council meeting, presided over by German Emperor Wilhelm II, decided on the resumption of unrestricted submarine warfare by the Imperial German Navy during the First World War. The policy had been proposed by the German military in 1916 but was opposed by the civilian government under Chancellor Theobald von Bethmann Hollweg who feared it would alienate neutral powers, including the United Stat...

Шведерский, Анатолий Самойлович

Анатолий Шведерский Имя при рождении Анатолий Самойлович Шведерский Дата рождения 6 мая 1924(1924-05-06)[1] Место рождения Ленинград, РСФСР, СССР Дата смерти 8 июня 2008(2008-06-08)[1] (84 года) Место смерти Санкт-Петербург, Россия[1] Гражданство  СССР Россия Профессия актё...

 

 

Maxi Kleber

German basketball player Maxi KleberKleber in 2019No. 42 – Dallas MavericksPositionPower forwardLeagueNBAPersonal informationBorn (1992-01-29) 29 January 1992 (age 31)Würzburg, GermanyListed height6 ft 10 in (2.08 m)Listed weight240 lb (109 kg)Career informationNBA draft2014: undraftedPlaying career2011–presentCareer history2011–2014Würzburg2014–2015Obradoiro2015–2017Bayern Munich2017–presentDallas Mavericks Career highlights and awards All-...

 

 

Leon Britton

English footballer and coach (born 1982) Not to be confused with the politician, Leon Brittan. Leon Britton Britton playing for Swansea City in 2010Personal informationFull name Leon James Britton[1]Date of birth (1982-09-16) 16 September 1982 (age 41)[1]Place of birth Merton, EnglandHeight 5 ft 4 in (1.63 m)[2]Position(s) MidfielderYouth career1991–1998 Arsenal1998–1999 West Ham UnitedSenior career*Years Team Apps (Gls)1999–2003 West Ham Unit...

Trinidad y Tobago en los Juegos Olímpicos de Seúl 1988

Trinidad y Tobago en los Juegos Olímpicos Bandera de Trinidad y TobagoCódigo COI TRICON Comité Olímpico de Trinidad y Tobago(pág. web)Juegos Olímpicos de Seúl 1988Deportistas 6 en 3 deportesAbanderado Ian MorrisMedallas 0 0 0 0 Historia olímpicaJuegos de verano 1948 • 1952 • 1956 • 1960 • 1964 • 1968 • 1972 • 1976 • 1980 • 1984 • 1988 • 1992 • 1996&#...

 

 

Jack Womer

Jack WomerNickname(s)Hawk EyeBorn(1917-06-18)June 18, 1917Lewistown, Pennsylvania, U.S.DiedDecember 28, 2013(2013-12-28) (aged 96)Dundalk, Maryland, U.S.Allegiance United StatesService/branch United States ArmyYears of service1941–1945RankSergeantUnit29th Ranger Battalion101st Airborne Division506th Parachute Infantry RegimentBattles/warsSecond World WarNormandy Invasion (Operation Overlord)Operation Market-GardenBattle of the BulgeAwards Legion of Honour Bronze StarBasto...

 

 

Tittha Sutta

Buddhist scripture in Pāli Canon Blind monks examining an elephant, a ukiyo-e by the Japanese painter Hanabusa Itchō (1652–1724). Tittha Sutta, is a Buddhist scripture in Udāna, the third book in the fifth collection of Sutta Pitaka, known as Khuddaka Nikāya[1] Udana is one of the oldest texts in the Pali Canon of Theravāda Buddhism.[2] Tittha Sutta contains a famous parable that has spread widely in the world, also to other cultures and views, the parable of the blind ...

MV Hamnavoe

MV Hamnavoe at Scrabster Harbour History United Kingdom NameHamnavoe NamesakeThe old Viking name for Stromness, meaning safe harbour Owner 2002–2004: NorthLink Orkney & Shetland Ferries Limited 2004–2012: RBS - RBSSAF (20) Limited 2012–2018: previous owner renamed Northern Isles Ferries Limited 2018–present: Caledonian Maritime Assets Limited OperatorNorthLink Ferries Port of registryKirkwall, UK RouteScrabster to Stromness, Orkney BuilderAker Finnyards, Rauma, Finland Cost£28 mi...

 

 

Andi Nadjamuddin Aminullah

Artikel ini membutuhkan penyuntingan lebih lanjut mengenai tata bahasa, gaya penulisan, hubungan antarparagraf, nada penulisan, atau ejaan. Anda dapat membantu untuk menyuntingnya.Gaya atau nada penulisan artikel ini tidak mengikuti gaya dan nada penulisan ensiklopedis yang diberlakukan di Wikipedia. Bantulah memperbaikinya berdasarkan panduan penulisan artikel. (Pelajari cara dan kapan saatnya untuk menghapus pesan templat ini) Drs. H.Andi Nadjamuddin AminullahS.Sos., B.A.Bupati Maros ke...

 

 

Florence Shapiro

American politician (1948-present) Florence ShapiroMember of the Texas Senatefrom the 8th districtIn officeJanuary 10, 1995 – January 8, 2013Preceded byO.H. Ike HarrisSucceeded byKen PaxtonMember of the Texas Senatefrom the 2nd districtIn officeJanuary 12, 1993 – January 10, 1995Preceded byTed LyonSucceeded byDavid Cain Personal detailsBornFlorence Donald (1948-05-02) May 2, 1948 (age 75)New York City, New YorkNationalityAmericanPolitical partyRepublicanSpouseHoward...

Air Bud: World Pup

This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed.Find sources: Air Bud: World Pup – news · newspapers · books · scholar · JSTOR (June 2019) (Learn how and when to remove this template message) 2000 American filmAir Bud: World PupDVD cover artDirected byBill BannermanWritten byMike WhitingRobert VinceAnne VinceBased onChara...

 

 

1948 Roller Hockey World Cup

This article includes a list of references, related reading, or external links, but its sources remain unclear because it lacks inline citations. Please help to improve this article by introducing more precise citations. (December 2013) (Learn how and when to remove this template message) 1948 Roller Hockey World CupRoller Hockey Men's World ChampionshipsTournament detailsHost countrySwitzerlandDates24 March 1948 (1948-03-24)–30 March 1948 (1948-03-30)Teams9...

 

 

Strategi Solo vs Squad di Free Fire: Cara Menang Mudah!