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(Top) 1 Uses 1.1 Processing of nuclear fuels 1.2 Archaic photography 1.3 Stain for microscopy 1.4 As a reagent 2 Health and environmental issues 3 External links 4 References

Uranyl nitrate

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Uranyl nitrate
Names



IUPAC name (T-4)-bis(nitrato-κO)dioxouranium
Other names Uranium nitrate, Yellow salt
Identifiers
CAS Number	anhydrous: 10102-06-4^Y hexahydrate: 13520-83-7
3D model (JSmol)	anhydrous: Interactive image dihydrate: Interactive image hexahydrate: Interactive image
ChemSpider	anhydrous: 22177973^Y hexahydrate: 55548
ECHA InfoCard	100.030.229
EC Number	anhydrous: 233-266-3
PubChem CID	anhydrous: 24933 dihydrate: 22763670 hexahydrate: 61640
RTECS number	hexahydrate: YR3850000
UNII	anhydrous: 0C0WI17JYF^N
CompTox Dashboard (EPA)	anhydrous: DTXSID2037136
InChI anhydrous: InChI=1S/2NO3.2O.U/c22-1(3)4;;;/q2-1;;;^Y Key: QWDZADMNIUIMTC-UHFFFAOYSA-N^Y dihydrate: InChI=1S/2NO3.2H2O.2O.U/c22-1(3)4;;;;;/h;;21H2;;;/q2-1;;;;;+2 Key: SUFYIOKRRLBZBE-UHFFFAOYSA-N hexahydrate: InChI=1S/2HNO3.6H2O.2O.U/c22-1(3)4;;;;;;;;;/h2(H,2,3,4);61H2;;; Key: WRIBVRZWDPGVQH-UHFFFAOYSA-N
SMILES anhydrous: [N+](=O)([O-])[O-].O=[U+2]=O.[O-][N+](=O)[O-] dihydrate: [N+](=O)([O-])[O-].[N+](=O)([O-])[O-].O.O.O=[U+2]=O hexahydrate: [N+](=O)(O)[O-].[N+](=O)(O)[O-].O.O.O.O.O.O.O=[U]=O
Properties
Chemical formula	UO₂(NO₃)₂
Molar mass	394.04 g/mol
Appearance	yellow-green solid hygroscopic
Density	3.5 g/cm³ (dihydrate)^[1]
Melting point	60.2 °C (140.4 °F; 333.3 K)
Boiling point	118 °C (244 °F; 391 K) (decomposition)
Solubility in water	g/100g H2O: 98 (0°C), 122 (20°C), 474 (100°C)<
Solubilityintributyl phosphate	soluble
Hazards
GHS labelling:
Pictograms
Signal word	Danger
NFPA 704 (fire diamond)	4 0 0 OX
Flash point	Non-flammable
Lethal dose or concentration (LD, LC):
LD_Lo (lowest published)	12 mg/kg (dog, oral) 238 (cat, oral)^[2]
Safety data sheet (SDS)	External MSDS
Related compounds
Other anions	Uranyl chloride Uranyl sulfate
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

Uranyl nitrate is a water-soluble yellow uranium salt with the formula UO₂(NO₃)₂ · nH₂O. The hexa-, tri-, and dihydrates are known.^[3] The compound is mainly of interest because it is an intermediate in the preparation of nuclear fuels. In the nuclear industry, it is commonly referred to as yellow salt.

Uranyl nitrate can be prepared by reaction of uranium salts with nitric acid. It is soluble in water, ethanol, and acetone. As determined by neutron diffraction, the uranyl center is characteristically linear with short U=O distances. In the equatorial plane of the complex are six U-O bonds to bidentate nitrate and two water ligands. At 245 pm, these U-O bonds are much longer than the U=O bonds of the uranyl center.^[1]

Uses[edit]

Processing of nuclear fuels[edit]

Uranyl nitrate is important for nuclear reprocessing. It is the compound of uranium that results from dissolving the decladded spent nuclear fuel rods or yellowcake in nitric acid, for further separation and preparation of uranium hexafluoride for isotope separation for preparing of enriched uranium. A special feature of uranyl nitrate is its solubility in tributyl phosphate ( ${\ce {PO(OC4H9)3}}$ ), which allows uranium to be extracted from the nitric acid solution. Its high solubility is attributed to the formation of the lipophilic adduct UO₂(NO₃)₂(OP(OBu)₃)₂.

Archaic photography[edit]

During the first half of the 19th century, many photosensitive metal salts had been identified as candidates for photographic processes, among them uranyl nitrate. The prints thus produced were called uranium prints or uranotypes. The first uranium printing processes were invented by Scotsman J. Charles Burnett between 1855 and 1857, and used this compound as the sensitive salt. Burnett authored a 1858 article comparing "Printing by the Salts of the Uranic and Ferric Oxides" The process employs the ability of the uranyl ion to pick up two electrons and reduce to the lower oxidation state of uranium(IV) under ultraviolet light. Uranotypes can vary from print to print from a more neutral, brown russet to strong Bartolozzi red, with a very long tone grade. Surviving prints are slightly radioactive, a property which serves as a means of non-destructively identifying them. Several other more elaborate photographic processes employing the compound appeared and vanished during the second half of the 19th century with names like Wothlytype, Mercuro-Uranotype and the Auro-Uranium process. Uranium papers were manufactured commercially at least until the end of the 19th century, vanishing due to the superior sensitivity and practical advantages of silver halides. From the 1930s through the 1950s Kodak Books described a uranium toner (Kodak T-9) using uranium nitrate hexahydrate.

Stain for microscopy[edit]

Along with uranyl acetate it is used as a negative stain for virusesinelectron microscopy; in tissue samples it stabilizes nucleic acids and cell membranes.

As a reagent[edit]

Uranyl nitrates are common starting materials for the synthesis of other uranyl compounds because the nitrate ligand is easily replaced by other anions. It reacts with oxalate to give uranyl oxalate. Treatment with hydrochloric acid gives uranyl chloride.^[4]

Health and environmental issues[edit]

Uranyl nitrate is an oxidizing and highly toxic compound. When ingested, it causes severe chronic kidney disease and acute tubular necrosis and is a lymphocyte mitogen. Target organs include the kidneys, liver, lungs and brain. It also represents a severe fire and explosion risk when heated or subjected to shock in contact with oxidizable substances.

External links[edit]

URANIUM DAYS: Notes On Uranium Photography (2007 archive from archive.org)
Chemical Database – Uranyl nitrate, solid

References[edit]

^ ^a ^b Mueller, Melvin Henry; Dalley, N. Kent; Simonsen, Stanley H. (1971). "Neutron Diffraction Study of Uranyl Nitrate Dihydrate". Inorganic Chemistry. 10 (2): 323–328. doi:10.1021/ic50096a021.

^ "Uranium (soluble compounds, as U)". Immediately Dangerous to Life or Health Concentrations (IDLH). National Institute for Occupational Safety and Health (NIOSH).

^ Peehs, Martin; Walter, Thomas; Walter, Sabine; Zemek, Martin (2007). "Uranium, Uranium Alloys, and Uranium Compounds". Ullmann's Encyclopedia of Industrial Chemistry. Weinheim: Wiley-VCH. doi:10.1002/14356007.a27_281.pub2. ISBN 978-3527306732.

^ F. Hein, S. Herzog (1963). "Uranyl Chloride". In G. Brauer (ed.). Handbook of Preparative Inorganic Chemistry, 2nd Ed. Vol. 2. NY, NY: Academic Press. p. 1439.