CrossRef 10. Shehata N, Meehan K, Hudait M, Jain NJ: Control of oxygen vacancies and Ce +3 concentrations
in doped ceria nanoparticles via the selection of lanthanide element. Nanopart Res 2012, 14:1173–1183.CrossRef 11. Zholobak NM, Ivanov VK, Shcherbakov AB, Shaporev AS, Polezhaeva OS, Baranchikov AY, Spivak NY, Tretyakov YDJ: UV-shielding property, photocatalytic activity and photocytotoxicity of ceria colloid solutions. Photochem Photobiol B 2011, 102:32–38.CrossRef 12. Cho JH, Bass M, Babu S, Dowding JM, Self WT, Seal SJ: Up conversion luminescence of Yb +3 –Er +3 codoped CeO 2 nanocrystals with imaging applications. Lumin 2012, 132:743–749.CrossRef 13. Guo HJ: Green and red upconversion luminescence in CeO 2 :Er +3 powders produced by 785 nm laser. Solid State Chem 2007, 180:127–131.CrossRef 14. Damyanova S, Pawelec B, Arishtirova K, Tofacitinib https://www.selleckchem.com/products/pu-h71.html Huerta MV, Fierro JG: Study of the surface and redox properties of ceria-zirconia oxides. Appl Catal A 2008, 337:86–96.CrossRef 15. Pedrosa AMG, Silva JEC, Pimentel PM, Melo DMA, Silva FRG: Synthesis and optical investigation of systems involving mixed Ce and Er oxides.
J Alloys Compd 2004, 374:223–229.CrossRef 16. Chen H, Chang H: Homogeneous precipitation of ARN-509 manufacturer cerium dioxide nanoparticles in alcohol/water mixed solvents. Colloids Surf A 2004, 242:61–69.CrossRef 17. Dhannia T, Jayalekshmi S, Kumar MCS, Rao TP, Bose AC: Effect of iron doping and annealing on structural and optical properties of cerium oxide nanocrystals. J Phys Chem Solids 2009, 70:1443–1447.CrossRef 18. Perrichon V, Laachir A, Bergeret G, Frety R, Tournayan LJ: Reduction of cerias with different textures by hydrogen and their reoxidation by oxygen. Chem Soc Faraday Trans 1994, 90:773–781.CrossRef 19. Balda R, Garcia-Revilla S, Fernandez J, Seznec V, Nazabal V, Zhang XH, Adam JL, Allix M, Matzen G: Upconversion luminescence of transparent Er 3+
-doped chalcohalide glass-ceramics. Opt Mater 2009, 31:760–764.CrossRef 20. Pankove J: Optical Processes in Semiconductors. New York: Dover Publications Inc; 1971:34–36. 21. Shmyreva AN, Borisov AV, Maksimchuk NV: Electronic sensors built on nanostructured cerium oxide films. Nanotech Russia 2010, 5:382–389.CrossRef 22. Lee YEK, Kopelman R: Optical Amine dehydrogenase nanoparticles sensors for quantitative intracellular imaging. WIREs Nanomed Nanobiotech 2009, 1:98–110.CrossRef 23. Chu CS, Lo YL: Optical fiber dissolved oxygen sensor based on Pt(II) complex and core-shell silica nanoparticles incorporated with sol–gel matrix. Sens Actuators B 2010, 151:83–89.CrossRef 24. Shehata N, Meehan K, Ashry I, Kandas I, Xu Y: Lanthanide-doped ceria nanoparticles as fluorescence-quenching probes for dissolved oxygen. Sens Actuators B 2013, 183:179–186.CrossRef 25. Wang M, Abbineni G, Clevenger A, Mao C, Xu S: Upconversion nanoparticles: synthesis, surface modification and biological applications. Nanomed Nanotechnol Biol Med 2011, 7:710–729.CrossRef 26.