Copper(II) nitrate

Not to be confused with Copper(I) nitrate.

Copper(II) nitrate
Names


IUPAC name Copper(II) nitrate
Other names Cupric nitrate
Identifiers
CAS Number	3251-23-8^Y 10031-43-3 (trihydrate)^N 13478-38-1 (hexahydrate)^N 19004-19-4 (hemipentahydrate)^N
3D model (Jmol)	Interactive image
ChEBI	CHEBI:78036^N
ChemSpider	17582^Y
ECHA InfoCard	100.019.853
PubChem	18616
RTECS number	GL7875000
UNII	9TC879S2ZV^Y
InChI InChI=1S/Cu.2NO3/c;22-1(3)4/q+2;2-1^Y Key: XTVVROIMIGLXTD-UHFFFAOYSA-N^Y InChI=1/Cu.2NO3/c;22-1(3)4/q+2;2-1 Key: XTVVROIMIGLXTD-UHFFFAOYAG
SMILES [Cu+2].[O-][N+]([O-])=O.[O-][N+]([O-])=O
Properties
Chemical formula	Cu(NO₃)₂
Molar mass	187.5558 g/mol (anhydrous) 241.60 g/mol (trihydrate) 232.591 g/mol (hemipentahydrate)
Appearance	blue crystals hygroscopic
Density	3.05 g/cm³ (anhydrous) 2.32 g/cm³ (trihydrate) 2.07 g/cm³ (hexahydrate)
Melting point	256 °C (493 °F; 529 K) (anhydrous, decomposes) 114.5 °C (trihydrate) 26.4 °C (hexahydrate, decomposes)
Boiling point	170 °C (338 °F; 443 K) (trihydrate, decomposes)
Solubility in water	trihydrate:^[1] 381 g/100 mL (40 °C) 666 g/100 mL (80 °C) hexahydrate:^[1] 243.7 g/100 mL (80 °C)
Solubility	hydrates very soluble in ethanol, ammonia, water; insoluble in ethyl acetate
Structure
Crystal structure	orthorhombic (anhydrous) rhombohedral (hydrates)
Hazards
Main hazards	Irritant, Oxidizer
Safety data sheet	Cu(NO₃)₂·3H₂O
NFPA 704	0 1 3 OX
US health exposure limits (NIOSH):
PEL (Permissible)	TWA 1 mg/m³ (as Cu)^[2]
REL (Recommended)	TWA 1 mg/m³ (as Cu)^[2]
IDLH (Immediate danger)	TWA 100 mg/m³ (as Cu)^[2]
Related compounds
Other anions	Copper(II) sulfate Copper(II) chloride
Other cations	Nickel(II) nitrate Zinc nitrate
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
N verify (what is ^YN ?)
Infobox references

Copper(II) nitrate, Cu(N O₃)₂, is an inorganic compound that forms a blue crystalline solid. Anhydrous copper nitrate forms deep blue-green crystals and sublimes in a vacuum at 150-200 °C.^[3] Copper nitrate also occurs as five different hydrates, the most common ones being the trihydrate and hexahydrate. These materials are more commonly encountered in commerce than in the laboratory.

Synthesis and reactions

Aqueous solution of copper(II) nitrate.

Hydrated copper nitrate can be prepared by hydration of the anhydrous material or by treating copper metal with an aqueous solution of silver nitrate or concentrated nitric acid:^[4]

Cu + 4 HNO₃ → Cu(NO₃)₂ + 2 H₂O + 2 NO₂

Anhydrous Cu(NO₃)₂ forms when copper metal is treated with N₂O₄:

Cu + 2 N₂O₄ → Cu(NO₃)₂ + 2 NO

Attempted dehydration of any of the hydrated copper(II) nitrates by heating instead affords the oxides, not Cu(NO₃)₂. At 80 °C, the hydrates convert to "basic copper nitrate" (Cu₂(NO₃)(OH)₃), which converts to CuO at 180 °C.^[4] Exploiting this reactivity, copper nitrate can be used to generate nitric acid by heating it until decomposition and passing the fumes directly into water. This method is similar to the last step in the Ostwald process. The equations are as follows:

2 Cu(NO₃)₂ → 2 CuO + 4 NO₂ + O₂

3NO₂ + H₂O → 2HNO₃ + NO

Natural basic copper nitrates include the rare minerals gerhardtite and rouaite, both being polymorphs of Cu₂(NO₃)(OH)₃ substance.^[5]

Structure

Anhydrous copper(II) nitrate

Anhydrous copper(II) nitrate has been crystallized in two solvate-free polymorphs.^[6]^[7] α- and β-Cu(NO₃)₂ are fully 3D coordination polymer networks. The alpha form has only one Cu environment, with [4+1] coordination, but the beta form has two different copper centers, one with [4+1] and one that is square planar. The nitromethane solvate also features "[4+ 1] coordination", with four short Cu-O bonds of approximately 200 pm and one longer bond at 240 pm.^[8] They are coordination polymers, with infinite chains of copper(II) centers and nitrate groups. In the gas phase, copper(II) nitrate features two bidentate nitrate ligands (see image at upper right).^[9] Thus, evaporation of the solid entails "cracking" to give the copper(II) nitrate molecule.

Hydrated copper(II) nitrate

Five hydrates have been reported: the monohydrate (Cu(NO₃)₂·H₂O),^[7] the sesquihydrate (Cu(NO₃)₂·1.5H₂O),^[10] the hemipentahydrate (Cu(NO₃)₂·2.5H₂O),^[11] a trihydrate (Cu(NO₃)₂·3H₂O),^[12] and a hexahydrate (Cu(H₂O)₆](NO₃)₂).^[13] The hexahydrate is interesting because the Cu-O distances are all equal, not revealing the usual effect of Jahn-Teller distortion that is otherwise characteristic of octahedral Cu(II) complexes. This non-effect is attributed to the strong hydrogen bonding that limits the elasticity of the Cu-O bonds.

Applications

Copper(II) nitrate finds a variety of applications, the main one being its conversion to copper(II) oxide, which is used as catalyst for a variety of processes in organic chemistry. Its solutions are used in textiles and polishing agents for other metals. Copper nitrates are found in some pyrotechnics.^[4] It is often used in school laboratories to demonstrate chemical voltaic cell reactions.

Organic Synthesis

Copper nitrate, in combination with acetic anhydride, is an effective reagent for nitration of aromatic compounds, under what are known as "Menke conditions", in honor of the Dutch chemist who discovered that metal nitrates are effective reagents for nitration.^[14] Hydrated copper nitrate adsorbed onto clay affords a reagent called "Claycop". The resulting blue-colored clay is used as a slurry, for example for the oxidation of thiols to disulfides. Claycop is also used to convert dithioacetals to carbonyls.^[15] A related reagent based on montmorillonite has proven useful for the nitration of aromatic compounds.^[16]

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References

1 2 Perrys' Chem Eng Handbook, 7th Ed
1 2 3 "NIOSH Pocket Guide to Chemical Hazards #0150". National Institute for Occupational Safety and Health (NIOSH).
↑ Pass and Sutcliffe (1968). Practical Inorganic Chemistry. London: Chapman and Hall.
1 2 3 H.Wayne Richardson "Copper Compounds" Ullmann's Encyclopedia of Industrial Chemistry 2005, Wiley-VCH, Weinheim. doi:10.1002/14356007.a07 567.
↑ Mindat, http://www.mindat.org/min-10588.html
↑ α-Cu(NO₃)₂S. C. Wallwork, W. E. Addison, "The crystal structures of anhydrous nitrates and their complexes. Part I. The α form of copper(II) nitrate" J. Chem. Soc. (1965) 2925-2933. doi:10.1039/JR9650002925.
1 2 β-Cu(NO₃)₂: S. I. Troyanov, I. V. Morozov, K. O. Znamenkov, Yu. M. Korenev, "Synthesis and X-Ray Structure of New Copper(II) Nitrates: Cu(NO₃)₂·H₂O and β-modification of Cu(NO₃)₂" Z. Anorg. Allg. Chem. (1995) vol. 621, pp. 1261–1265. doi:10.1002/zaac.19956210727
↑ B. Duffin and S. C. Wallwork "The crystal structure of anhydrous nitrates and their complexes. II. The 1:1 copper(II) nitrate-nitromethane complex" Acta Crystallographica 1966. volume 20, pp. 210-213. doi:10.1107/S0365110X66000434
↑ R. E. LaVilla, S. H. Bauer "The Structure of Gaseous Copper(II) Nitrate as Determined by Electron Diffraction" J. Am. Chem. Soc., 1963, volume 85, pp 3597–3600. doi:10.1021/ja00905a015
↑ K. Dornberger-Schiff, J. Leciejewicz, "Zur Struktur des Kupfernitrates Cu(NO₃)₂^.1.5H₂O" Acta Crystallogr. 1958, volume 11, pp. 825–826. doi:10.1107/S0365110X58002322
↑ B. Morosin, "The crystal structure of Cu(NO₃)₂.2.5H₂O" Acta Crystallogr. 1970, volume B26, pp. 1203–1208. doi:10.1107/S0567740870003898
↑ J. Garaj, Sbornik Prac. Chem.-Technol. Fak. Svst., Cskosl. 1966, pp. 35–39.
↑ R. Zibaseresht, R. M. Hartshorn,"Hexaaquacopper(II) dinitrate: absence of Jahn-Teller distortion" Acta Crystallogr. 2006, volume E62, pp. i19–i22. doi:10.1107/S1600536805041851
↑ Menke J.B. (1925). "Nitration with nitrates". Recueil des Travaux Chimiques des Pays-Bas. 44: 141. doi:10.1002/recl.19250440209.
↑ Balogh, M. "Copper(II) Nitrate–K10 Bentonite Clay" in Encyclopedia of Reagents for Organic Synthesis (Ed: L. Paquette) 2004, J. Wiley & Sons, New York. doi:10.1002/047084289.
↑ Collet, C.; Delville, A.; Laszlo, P. "Clays Direct Aromatic Nitration" Angewandte Chemie International Edition in English, 2003, Volume 29, Issue 5 , Pages 535–536. doi:10.1002/anie.199005351.

External links

Copper compounds

Cu(0,I)	Cu₅Si

Cu(I)	CuBr CuCN CuCl CuF CuH CuI Cu₂C₂ Cu₂Cr₂O₅ Cu₂O Cu₂S Cu₃P CuSCN

Cu(II)	Cu(BF₄)₂ CuBr₂ CuC₂ Cu(CN)₂ CuCO₃ CuCl₂ CuF₂ Cu(NO₃)₂ Cu₃(PO₄)₂ CuN₆ CuO CuO₂ Cu(OH)₂ CuI₂ CuS CuSO₄ Cu₃(AsO₄)₂

Cu(III)	K₃CuF₆ Cu₂O₃

Cu(IV)	Cs₂CuF₆ Rb₂CuF₆

Salts and covalent derivatives of the Nitrate ion
HNO₃																	He
LiNO₃	Be(NO₃)₂											B(NO₃)₄⁻	C	N	O	FNO₃	Ne
NaNO₃	Mg(NO₃)₂											Al(NO₃)₃	Si	P	S	ClONO₂	Ar
KNO₃	Ca(NO₃)₂	Sc(NO₃)₃	Ti(NO₃)₄	VO(NO₃)₃	Cr(NO₃)₃	Mn(NO₃)₂	Fe(NO₃)₃	Co(NO₃)₂, Co(NO₃)₃	Ni(NO₃)₂	Cu(NO₃)₂	Zn(NO₃)₂	Ga(NO₃)₃	Ge	As	Se	Br	Kr
RbNO₃	Sr(NO₃)₂	Y	Zr(NO₃)₄	Nb	Mo	Tc	Ru	Rh	Pd(NO₃)₂	AgNO₃	Cd(NO₃)₂	In	Sn	Sb	Te	I	Xe(NO₃)₂
CsNO₃	Ba(NO₃)₂		Hf	Ta	W	Re	Os	Ir	Pt	Au	Hg₂(NO₃)₂, Hg(NO₃)₂	Tl(NO₃)₃	Pb(NO₃)₂	Bi(NO₃)₃ BiO(NO₃)	Po	At	Rn
Fr	Ra		Rf	Db	Sg	Bh	Hs	Mt	Ds	Rg	Cn	Nh	Fl	Mc	Lv	Ts	Og
		↓
		La	Ce(NO₃)₃, Ce(NO₃)₄	Pr	Nd	Pm	Sm	Eu	Gd(NO₃)₃	Tb	Dy	Ho	Er	Tm	Yb	Lu
		Ac	Th	Pa	UO₂(NO₃)₂	Np	Pu	Am	Cm	Bk	Cf	Es	Fm	Md	No	Lr

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