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Protactinium

CAS No.
7440-13-3
Chemical Name:
Protactinium
Synonyms
91Pa;Brevium;Protactinio;Chebi:33386;protactinium;protactinium atom
CBNumber:
CB71392921
Molecular Formula:
Pa
Molecular Weight:
231.03588
MDL Number:
MOL File:
7440-13-3.mol
Last updated:2023-10-17 17:11:50

Protactinium Properties

Melting point 1560°
Boiling point bp 4227°
Density d25 15.37
form shiny metal
color shiny metal; tetragonal or cubic
FDA UNII 0S6855V29M

Protactinium Chemical Properties,Uses,Production

Chemical Properties

shiny, malleable metal; readily tarnishes in air; α: tetr, a = 0.3929 nm, c = 0.3241 nm, stable from room temp up to 1170°C; β: bcc, a = 0.381 nm, stable from 1170°C–1575°C; first discovered in 1917; enthalpy of fusion 12.34 kJ/mol; can be produced by nuclear reaction 230Th + n → 231Th + γ 231Th → 231Pa, however, Pa is also found in natural sources; t1/2 231Pa is 3.25 × 10+4 years [KIR78] [MER06] [CRC10]

Physical properties

Shiny white metal with bright metallic luster; hard and malleable; body-centered tetragonal structure; density 15.37 g/cm3 (calculated); melts below 1,600°C; vapor pressure 3.88x10-2 torr at about 1,930°C (calculated); superconducting below 1.4°K.

History

In 1913 Fajans and Gohring identified the first isotope of this element, a metastable isotope having a mass 234, Pa-234m, a short-lived member of uranium-238 decay series. They named it brevium. In 1918, two independent groups, namely Hahn and Meitner and Soddy, Cranston, and Fleck simultaneously identified a longer-lived isotope Pa-231, a member of the uranium-235 decay series. The isotope Pa-234 in its ground state was discovered by Hahn and Meitner in 1921. The element derived its name from the Greek word protos, which means ‘first.’ Protactinium 231 occurs in the ore pitchblende at about 0.1ppm abundance. Certain ores of pitchblende have a higher abundance of this isotope, about 3ppm. Pa-231 also is found naturally in uranium and radium wastes. No commercial application of protactinium isotopes is known.

Uses

233Pa as intermediate in production of fissile 233U in thorium breeder reactors.

Definition

ChEBI: Protactinium atom is an actinoid atom and a f-block element atom.

Production Methods

Protactinium-233 is produced by the beta decay of the short-lived thorium- 233. Thorium-233 is obtained by neutron capture of natural thorium-232. The nuclear reactions are as follows:
Production Methods_7440-13-3_1
To synthesize Pa-233, thorium nitrate is irradiated with neutron. Pa-233 formed, as shown above, is dissolved in 3M nitric acid. The solution is heated. A manganous salt and permanganate are added to this solution. Manganese dioxide, MnO2, is precipitated. Pa-233 co-deposits onto this precipitate. The precipitate is washed with water. It is then dissolved in 6M hydrochloric acid.Pa-233 is extracted into diisopropyl ketone. The solvent extract containing Pa-233 is washed with 6M HCl for the removal of trace manganese salts and impurities. From the diisopropyl ketone extract, protactinium-233 is reextracted into an HCl-HF mixture solution containing 6M HCl and 0.1M HF.
Protactinium-231 can be recovered from the residues of uranium refining by various chemical processes. One such recovery process is highlighted below (Maddock, A.G. 1968. Protactinium. In The Encyclopedia of Chemical Elements, ed. C.A. Hampel, pp 580-585. New York: Reinhold Book Corp).
The isotope Pa-231 is extracted with a mixture of 8M HCl and 0.1M HF from the uranium refining residues. Protactinium converts to its fluoride, PaF4. Addition of boric acid or aluminum converts PaF4 into a complex, which is extracted into diisopropyl ketone. The organic solution is washed and the Pa-complex is re-extracted into HCl-HF mixture. After repeated extractions, the diisopropyl ketone solution is treated with oxalic acid to reduce any iron salts present as contaminants. The solution is then treated with potassium hydrogen fluoride, KHF2 , to precipitate protactinium as K2PaF7. The precipitate is filtered and dissolved in sulfuric acid. Treatment with hydrogen peroxide forms a precipitate of protactinium peroxide, thus separating it from niobium. Peroxide on ignition forms diprotactinium pentoxide, Pa2O5.
Other reagents can be employed to recover protactinium from uranium refining residues or wastes. For example, treatment with 4M phosphoric or iodic acid precipitates protactinium as phosphate or iodate which is soluble in HF.
Protactinium-231, similar to Pa-233, also can be synthesized by neutron bombardment of thorium-230:

Production Methods_7440-13-3_2

Protactinium Preparation Products And Raw materials

Raw materials

Preparation Products

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91Pa Brevium Chebi:33386 Protactinio protactinium atom protactinium 7440-13-3