Lecture 3: Actinium Chemistry

1. Lecture 3: Actinium Chemistry • Lecture notes from Radiochemistry of the Rare Earths, Scandium, Yttrium, and Actinium • Chemistry of actinides • Metals • Soluble and insoluble salts • Complex ions and chelate compounds • Organic compounds • Separations

2. Actinium Isotopes

3. Actinium Isotopes and fundamental data • Ac is trivalent • Very similar chemistry to lanthanides and Y • Trivalent chemistry • electropositive • 227Ac • From 235U decay • Beta emitter • 225Ac has been proposed for nuclear medicine • Ac from 229Th parent • Alpha emitting therapeutic agent • Use of 225Ac to produce 213Bi • Chemistry of Ac basis of use as radiopharmaceutical • Use of Ac in delivery to tumor based on fundamental chemical interactions • Separation of Bi daughter from Ac parent • Atomic radius • 195 pm • Ionic radius • 126 pm • 6-coordinate

4. Redox • Trivalent is predominant state • Divalent state postulated based on similarities to Ac behavior with divalent Eu and Sm • Reinfored with polarogram data • Two waves in HClO4, pH 1.9-3.1 • Ac2++2e-+HgAc(Hg) • Ac3++3e-+HgAc(Hg) • Other experiments failed to find divalent state

5. Ac Metal • Density • 10.07 g/mL • Melting point • 1050 °C • Boiling Point • 3300 °C • Crystal structure • fcc • Preparation of metals difficult • Tendency to form oxides and hydroxides in water • Formation in electrolytic reduction • Molten salt systems • Reduction of fluoride salts by metallic Ca • Need to melt both CaF2 and resulting metal • Metal oxidizes in air • 4Ac + 3O2 → 2Ac2O3 • Useful starting material for synthesis • Ac2O3 + 3H2S Ac2S3 + 3H2O

6. Ac preparation and purification • Separation from U ores • Ores also contain a fair amount of lanthanides, require separation • Nuclear reactions and generators • Irradiation of 226Ra • 226Ra(n,g)227Ra, beta decay to 227Ac • 227Ac sg=762 barns • 225Ac from 229Th generator • Start with 233U from neutron activation of 232Th

7. Keto Hydrate Enol Ac purification: solvent extraction • Extrationwith TTA • pH control of extraction • Ac extracts well above pH 6 • Hydrolysis in this range • Synergist extraction with 0.1 TTA in 0.1 M TBP • Above pH 4

8. Ion exchange • Cation exchange • Separation of 227Ac from 227Th and 223Ra • Strong cation exchange • DOWEX 50 • Organic stationary phases • Trioctylamine • Bis(2-ethyl-hexyl)phosphoric acid (HDEHP) • TBP • TTA • Inorganic • MnO2

9. Preparation of gram quantities of Ac • Irradiation of multigram quantities of 226Ra • Forms both 227Ac and 228Th • 222Rn daughter from 226Ra • Irradiation of RaCO3 • Dissolved in dilute HNO3 • Ra(NO3)2 precipitated • Recycle for further Ac production • Th and Ac remain in solution • 5 M HNO3, anion exchange • Th strongly absorbed, Ac only slightly • Oxalate precipitation of Ac • Calcination after precipitation • Used to form Ac2O3

10. Ac salts • Salts are soluble in most acids • Some salt are insoluble and used in separations based on precipitation • Most data from one study • Each compound prepared from less than 10 µg • Purified by TTA • Hydroxides • pK1h=9.4 • Described by electrostatic model of hydrolysis • Linearity of log K1h versus 1/ionic radius • For trivalent metal ions, actually related to charge density • Hydrolyzes less than trivalent lanthanides or actinides • More basic than lanthanides • Ac hydrolysis paper • http://www.ingentaconnect.com/content/klu/jrnc/2004/00000261/00000001/05379859;jsessionid=4dkgcbb4sv85c.alice

11. Ac salts • Fluorides • AcF3 • Density 7.880 g/mL • Formation of AcF3 • Ac(OH)3 + 3HF AcF3 + 3H2O • Oxalate • Oxalates used in precipitation of metal ions • Oxalate salt of actinium used to form oxide • Ac precipitated as an oxalate by the addition of an oxalic acid • Oxalates are destroyed by boiling concentrated HNO3 or HClO4 • In 0.1 M HNO3-0.5 M oxalic acid • Ac oxalate solubility 24 mg/L

12. Ac salts • Chloride • Melting point: 1051°C (sublimes) • Density: 4.810 g/mL • Formation reaction • 4Ac(OH)3 + 3CCl4 4AcCl3 + 3CO2 + 6H2O • Bromide • Melting point: 1051°C • Boiling point: 3198°C • Density: 5.850 g/mL • Formation reaction • Ac2O3 + 2AlBr32AcBr3 + Al2O3 • For Iodide • Ac2O3 + 2Al + 3I22AcI3 + Al2O3

13. Solubility and complexation • Generally co-precipitation with insoluble salts from cation • Fluorides, hydroxides of metal ion • Ac precipitated by Pb sulfate • Solubility of oxalates evaluated • Effects of radiolysis • La solubility half of Ac solubility • Ksparound 5E-27 • Large decrease in pH due to radiolysis from 227Th • Purified Ac did not show large pH decrease • Resembles lanthanum in complexation • Generally lower for Ac • Determined in tracer experiments • Solvent extraction • Compared to ionic radius to some evaluated constants • HDEHP

14. Radiocolloid • Separation of 227Ac from 227Th and 223Ra • Formation of colliods • Ac goes into solution, Th remains in solid phase • Sorption of Ac onto filter increases with pH and time • Above pH 5 filter separation of Ac by centrifuge • Analytical chemistry of Ac • Radiation detection • Neutron activation for 227Ac • 1E-17 g level • Activity used to determine to 1E-20 g

15. Actinium uses • Heat sources • 227Ac multiCi amount • 5 alpha particles • Neutron sources • a,n source using 227Ac • Nuclear medicine • Medical use based on ligand • Bone treatments (polyphosphonate) • 225Ac suitable isotope • Decay series produces alpha and beta • No hard gammas • Ac bound by marcocyclic compounds • HEHA incorporates Ac • 1,4,7,10,13,16-hexaazacyclohexadecane-N,N′,N′,N′,N′,N′-hexaacetic acid • Geotracer • Compare 231Pa with 227Ac • Ac higher than Pa in deep seawater • Ac as a tracer for deep seawater circulation

16. Review • Actinide isotopes • Lifetimes, production • Actinium data • X-ray, radii, density • Redox • Oxidation states • Preparation and purification • Solvent extraction and ion exchange • Compounds and properties • Uses of actinium

17. Questions • What is the longest lived Ac isotope? • What are two different ways to obtain actinium • Provide the isotopes • What Ac oxidation state can be found in solution? • How is Ac separated from U • Which Ac species are insoluble? • What are some uses of Ac?

18. Pop Quiz • Describe a method for separating Ac from the lanthanides.