References
- Sleight AW, Chamberland BL. Transition metal molybdates of the type AMoO4. Inorg Chem. 1968;7(8):1672–1675.
- Brixner LH, Berkley JR, Jeitschko W. Chapter 30 Rare earth molybdates (VI). Vol. 3. In: Handbook on the physics and chemistry of rare earths. Elsevier; 1979. p. 609–654. doi:https://doi.org/10.1080/00223131.2018.1492468
- Begam KM, Michael MS, Prabaharan SRS. Enhanced cycling properties of transition metal molybdates, Li x M2(MoO4)3 {0 ≤ x < 3} [M = Co,Ni]: a nanocomposite approach for lithium batteries. Ionics. 2007;13:467–471.
- Namvar F, Beshkar F, Salavati-Niasari M, et al. Mater Sci: Mater Electron. 2017;28:7962–7968.
- Segundo Sena M, Medeiros de Santana e Silva M, Gomes Dos Santos A, et al. Synthesis and characterization of cerium molybdate semiconductor nanoparticles. Mater Res. 2017;20:485–491.
- Vereshchagina TA, Fomenko EV, Vasilieva NG, et al. A novel layered zirconium molybdate as a precursor to a ceramic zirconomolybdate host for lanthanide bearing radioactive waste. J Mater Chem. 2011;21:12001.
- Kubota M, Fukase T. Formation of precipitate in high-level liquid waste from nuclear fuel reprocessing. J Nucl Sci Technol. 1980;17:783–790.
- Izumida T, Kawamura F. Precipitates formation behavior in simulated high level liquid waste of fuel reprocessing. J Nucl Sci Technol. 1990;27:267–274.
- Kondo Y, Kubota M. Formation and filtration characteristics of solids generated in a high level liquid waste treatment process. J Radioanalytical Nucl Chem. 1997;221:45–52.
- Bossé E, Tribout-Maurizi A, Cochin F, et al. 2012. Improvement of performances in La Hague head facility. In: E. Bossé, A. Tribout-Maurizi, F. Cochin, C. Quenault (AREVA RecyclingBU), P. Blanc (CEA DEN/DRCP, Marcoule), E. Delisle (AREVA E&P, St Quentin-en-Yvelines); ATALANTE 2012; 2012 Sep 6; Montpellier.
- Pradel P. Treatment and recycling of spent nuclear fuel: actinide partitioning - Application to waste management. Saclay (France): CEA and Editions du Moniteur; 2008. 177 p.
- Khonina IV, Lumpov AA, Shadrin AY, et al. Formation of molybdenum and zirconium precipitates in concentrated uranyl nitrate solutions. Radiochemistry. 2010;52:175–179.
- Clearfield A, Blessing RH. The preparation and crystal structure of a basic zirconium molybdate and its relationship to ion exchange gels. J Inorg Nucl Chem. 1972;34:2643–2663.
- Zhang L, Takeuchi M, Koizumi T, et al. Evaluation of precipitation behavior of zirconium molybdate hydrate. Front Chem Sci Eng. 2013;7:65–71.
- Paul N, Biggs S, Edmondson M, et al. Characterising highly active nuclear waste simulants. Chem Eng Res Des. 2013;91:742–751.
- Doucet FJ, Goddard DT, Taylor CM, et al. The formation of hydrated zirconium molybdate in simulated spent nuclear fuel reprocessing solutions. Phys Chem Chem Phys. 2002;4:3491–3499.
- Magnaldo A, Masson M, Champion R. Nucleation and crystal growth of zirconium molybdate hydrate in nitric acid. Chem Eng Sci. 2007;62:766–774.
- Esbelin E, Gareil P, Masson M, et al. Determination of Mo(VI)–Zr(IV) interaction parameters in highly acidic solutions by UV absorbance spectrophotometry. Anal Chim Acta. 2001;442:171–182.
- Usami T, Tsukada T, Inoue T, et al. Formation of zirconium molybdate sludge from an irradiated fuel and its dissolution into mixture of nitric acid and hydrogen peroxide. J Nucl Mater. 2010;402:130–135.
- Lloyd MH Proc. top. meet. plutonium fuel cycle; 1977: Paper VI. 5.
- Fellows RL, Newman DH, Lloyd MH. Consolidated fuel reprocessing program: plutonium losses due to solution instability and solids formation. 1978. Chapter 2.1.4. ORNL / TM-6836 (Oak Ridge National Laboratory); 1979 Jan 1–Mar 31.
- Penneman RA, Haire RG, Lloyd MH. In actinide separations: polymolybdates as plutonium (IV) hosts. Am Chem Soc. 1980;117:571–581.
- Cross JN, Duncan PM, Villa EM, et al. From yellow to black: dramatic changes between cerium(IV) and plutonium(IV) molybdates. J Am Chem Soc. 2013;135:2769–2775.
- Seaborg GT. Radiochim Acta. 1993;61:115.
- Kim CW, Wronkiewicz DJ, Finch RJ, et al. Incorporation of cerium and neodymium in uranyl phases. J Nucl Mater. 2006;353:147–157.
- Rodriguez-Carvajal J, Fernandez-Diaz MT, Martinez JL. J Phys: Condensed Matter. 1991;3:3215.
- Denton AR, Ashcroft NW. Vegard’s law. Phys Rev A. 1991;43:3161.
- Brixner LH, Whitney JF, Licis Kay MS. Lattice parameters and space group of Ce(MoO4)2. J Solid State Chem. 1973;6:550–552.
- Shannon R. Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides. Acta Crystallographica Section A. 1976;32:751–767.