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Schweizer's reagent

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(Redirected from Cuprammonium)
Schweizer's reagent

Tetraamminediaquacopper(II) cation [Cu(NH3)4(H2O)2]2+
  Copper, Cu
  Oxygen, O
  Nitrogen, N
  Hydrogen, H

Aqueous solution of Schweizer's reagent
Names
IUPAC name
Tetraamminediaquacopper(II) hydroxide
Other names
Cuoxam, Schweitzer's reagent
Identifiers
ChemSpider
ECHA InfoCard 100.037.720 Edit this at Wikidata
EC Number
  • 241-508-4
UNII
Properties
[Cu(NH3)4(H2O)2](OH)2
Molar mass 201.714 g·mol−1
Appearance Deep-blue crystalline solid
Melting point decomposes
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).

Schweizer's reagent is a metal ammine complex with the formula [Cu(NH3)4(H2O)2](OH)2. This deep-blue compound is used in purifying cellulose. This salt consists of tetraamminediaquacopper(II) cations ([Cu(NH3)4(H2O)2]2+) and hydroxide anions (OH).

It is prepared by dissolving copper(II) hydroxide in an aqueous solution of ammonia.

It forms an azure solution. Evaporation of these solutions leaves light blue residue of copper hydroxide, reflecting the lability of the copper-ammonia bonding. If conducted under a stream of ammonia, then deep blue needle-like crystals of the tetrammine form. In presence of oxygen, concentrated solutions give rise to nitrites Cu(NO2)2(NH3)n. The nitrite results from oxidation of the ammonia.[1][2]

Reactions with cellulose

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Schweizer's reagent was once used in production of cellulose products such as rayon and cellophane (see cupro). Cellulose, which is quite insoluble in water (hence its utility as clothing), dissolves in the presence of Schweizer's reagent. Using the reagent, cellulose can be extracted from wood pulp, cotton fiber, and other natural cellulose sources. Cellulose precipitates when the solution is acidified. It functions by binding to vicinal diols.[3]

Presently, the reagent is used in the analysis of the molecular weight of cellulose samples.[4]

History

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These properties of Schweizer's reagent were discovered by the Swiss chemist Matthias Eduard Schweizer (1818–1860),[5] after whom the reagent is named. The French chemist Louis-Henri Despeissis then proposed a procedure where cellulose is extruded into diluted sulphuric acid. This leads to the complex no longer being stable enough to hold the cellulose in solution and it precipitates out forming strings. These strings were later used in industry to make artificial silk which was called rayon in the US and viscose in the UK. It was also originally used to make cellophane.[6]

See also

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Footnotes

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  1. ^ Cudennec, Y.; et al. (1995). "Étude cinétique de l'oxydation de l'ammoniac en présence d'ions cuivriques" [Kinetic study of the oxidation of ammonia in the presence of cupric ions]. Comptes Rendus de l'Académie des Sciences, Série IIB. 320 (6): 309–316.
  2. ^ Cudennec, Y.; et al. (1993). "Synthesis and study of Cu(NO2)2(NH3)4 and Cu(NO2)2(NH3)2". Eur. J. Solid State Inorg. Chem. 30 (1–2): 77–85.
  3. ^ Burchard, Walther; Habermann, Norbert; Klüfers, Peter; Seger, Bernd; Wilhelm, Ulf (1994). "Cellulose in Schweizer's Reagent: A Stable, Polymeric Metal Complex with High Chain Stiffness". Angewandte Chemie International Edition in English. 33 (8): 884–887. doi:10.1002/anie.199408841.
  4. ^ Krässig, Hans; Schurz, Josef; Steadman, Robert G.; Schliefer, Karl; Albrecht, Wilhelm; Mohring, Marc; Schlosser, Harald (2004). "Cellulose". Ullmann's Encyclopedia of Industrial Chemistry. Weinheim: Wiley-VCH. doi:10.1002/14356007.a05_375.pub2. ISBN 9783527303854.
  5. ^ (Schweizer, 1857), p. 110: "Dieselbe besitzt nämlich in ausgezeichnetem Grade das Vermögen, bei gewöhnlicher Temperatur Pflanzenfaser aufzulösen.
    Uebergiesst man gereinigte Baumwolle mit der blauen Flüssigkeit, so nimmt erstere bald eine gallertartige schlüpfrige Beschaffenheit an, die Fasern gehen auseinander und verschwinden und nach einigem Durcharbeiten mit einem Glasstabe hat sich das Ganze in eine schleimige Flüssigkeit verwandelt. Dabei findet nicht die geringste Wärmeentwicklung statt. Hat man nicht eine hinreichende Menge der Flüssigkeit angewendet, so bleibt ein Theil der Fasern noch sichtbar; setzt man dann aber einen Ueberschuss der Lösung hinzu und schüttelt um, so erhält man eine beinahe klare blaue Lösung, die sich, nachdem sie mit Wasser verdünnt worden ist, filtriren lässt."
    (It possesses, namely, to an outstanding degree the capacity to dissolve plant fibers at ordinary temperatures.
    If one pours the blue liquid over cleaned cotton, then the former soon assumes a gelatinous, slippery texture, the fibers separate and vanish, and after some kneading with a glass rod, the whole transformed into a slimy liquid. During this, not the least evolution of heat occurred. If one did not use a sufficient quantity of liquid, then a portion of the fibers still remained visible; however, if one then adds an excess of the solution and shakes it, then one obtains a nearly clear blue solution, which, after it has been diluted with water, can be filtered.)
  6. ^ "Matthias Eduard Schweizer".

References

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