DOATA A, FANJULB M, HOLLANDEB E, et al. Europium-doped bioapatite: a new photostable biological probe, internalizable by human cells [J]. Biomaterials, 2003, 24(19): 3365-3371. [2] HERNANDO J, HOOGENBOOM J P, VAN D, et al. Single molecule photobleaching probes the exciton wave function in a multichromophoric system [J]. Phys Rev Lett, 2004, 93(23): 1-4. [3] WANG M, HOLMES-DAVIS R, RAFINSKI Z, et al. Accelerated photobleaching of a cyanine dye in the presence of a ternary target DNA, PNA probe, dye catalytic complex: a molecular diagnostic [J]. Anal Chem, 2009, 81(6): 2043-2052. [4] HOSHINO A, FUJIOKA K, OKU T, et al. Physicochemical properties and cellular toxicity of nanocrystal quantum dots depend on their surface modification [J]. Nano Lett, 2004, 4(11): 2163-2169. [5] DERFUS A M, CHAN W C W, BHATIA S N. Probing the cytotoxicity of semiconductor quantum dots [J]. Nano Lett, 2004, 4(1): 11-18. [6] KOENEMAN B A, ZHANG Y, HRISTOVSKI K, et al. Experimental approach for an in vitro toxicity assay with non-aggregated quantum dots [J]. Toxicol in Vitro, 2009, 23(5): 955-962. [7] ZHANG S H, WANG Y J, WEI K, et al. Template-assisted synthesis of lamellar mesostructured hydroxyapatites [J]. Mater Lett, 2007, 61(6): 1341-1345. [8] WANG Y J, CHEN J D, WEI K, et al. Surfactant-assisted synthesis of hydroxyapatite particles [J]. Mater Lett, 2006, 60(27): 3227-3231. [9] WANG Y J, ZHANG S H, WEI K, et al. Hydrothermal synthesis of hydroxyapatite nanopowders using cationic surfactant as a template [J]. Mater Lett, 2006, 60(12): 1484-1487. [10] BIEKOFSKY R R, MUSKETT F W, SCHMIDT J M, et al. NMR approaches for monitoring domain orientations in calcium-binding proteins in solution using partial replacement of Ca2+ by Tb3+ [J]. FEBS Lett, 1999, 460(3): 519-526. [11] LONG M, HONG F S, LI W, et al. Size-dependent microstructure and europium site preference influence fluorescent properties of Eu3+- doped Ca10(PO4)6(OH)2 nanocrystal [J]. J Lumin, 2008, 128(3): 428- 436. [12] ONO T. Effects of lanthanide substitution at Ca2+-site on the properties of the oxygen evolving center of photosystem II [J]. J Inorg Biochem, 2000, 82(1-4): 85-91. [13] MARTINA P, CARLOTA G, CHEVARIERA A, et al. Mechanisms involved in thermal diffusion of rare earth elements in apatite [J]. J Nucl Mater, 1999, 275(3): 268-276. [14] SANTANA-ALONSO A, YANES A C, MéNDEZ-RAMOS J, et al. Sol-gel transparent nano-glass-ceramics containing Eu3+-doped NaYF4 nanocrystals [J]. J Non-Cryst Solids, 2010, 356(18/19): 933-936. [15] YANES A C, DEL-CASTILLO J, MENDEZ-RAMOS, et al. Luminescence and structural characterization of transparent nanostructured Eu3+-doped LaF3-SiO2 glass-ceramics prepared by sol-gel method [J]. Opt Mater, 2007, 29(9): 999-1003. [16] WEI Z G, SUN L D, LIAO C S, et al. Synthesis and size dependent luminescent properties of hexagonal (Y,Gd) BO3:Eu nanocrystals [J]. J Mater Chem, 2002, 12(12): 3665-3670. [17] TERNANE R, PANCZER G, COHEN-ADAD M T, et al. Relationships between structural and luminescence properties in Eu3+-doped new calcium borohydroxyapatite [J]. Opt Mater, 2001, 16(1/2): 291-300. [18] GAFT M, REISFELD R, PANCZER G, et al. Eu3+ luminescence in high-symmetry sites of natural apatite [J]. J Lumin, 1997, 72(4): 572-574.
