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HANDBOOK ON THE PHYSICS AND CHEMISTRY OF RARE EARTHS

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HANDBOOK ON THE PHYSICS AND CHEMISTRY OF RARE EARTHS ( handbook-onphysics-and-chemistry-rare-earths )

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118 Handbook on the Physics and Chemistry of Rare Earths Oeckler, O., Stadler, F., Rosenthal, T., Schnick, W., 2007. Real structure of SrSi2O2N2. Solid State Sci. 9, 205–212. Ohashi, T., Ohmi, K., 2008. Improvement in luminescent characteristics by Al CODOPING in Ba2SiS4:Ce blue phosphor for white LEDs. J. Light. Vis. Environ. 32, 139–142. Ohno, K., 1986. Effect of BaF2 on the synthesis of the single-phase cubic Y3Al5O12:Tb. J. Electrochem. Soc. 133, 638–643. Ohno, Y., 2004. Color rendering and luminous efficacy of white LED spectra. Proc. SPIE 5530, 88–98. Okamoto, S., Yamamoto, H., 2010. Luminescent-efficiency improvement by alkaline-earth fluor- ides partially replacing MgO in 3.5MgO0.5MgF2GeO2:Mn4+ deep-red phosphors for light emitting diodes. J. Electrochem. Soc. 157, J59–J63. Oyama, Y., Kamigaito, O., 1971. Solid solubility of some oxides in Si3N4. Jpn. J. Appl. Phys. 10, 1637. Pardha Saradhi, M., Varadaraju, U.V., 2006. Photoluminescence studies on Eu2+-activated Li2SrSiO4 a potential orange-yellow phosphor for solid-state lighting. Chem. Mater. 18, 5267–5272. Park, J.K., Kim, C.H., Park, S.H., Park, H.D., Choi, S.Y., 2004. Application of strontium silicate yellow phosphor for white light-emitting diodes. Appl. Phys. Lett. 84, 1647–1649. Park, J.K., Choi, K.J., Kim, K.N., Kim, C.H., 2005. Investigation of strontium silicate yellow phosphors for white light emitting diodes from a combinatorial chemistry. Appl. Phys. Lett. 87, 031108. Park, J.K., Choi, K.J., Yeon, J.H., Lee, S.J., Kim, C.H., 2006. Embodiment of the warm white- light-emitting diodes by using a Ba2+ codoped Sr3SiO5:Eu phosphor. Appl. Phys. Lett. 88, 043511. Park, I.W., Kim, J.H., Yoo, J.S., Shin, H.H., Kim, C.K., Choi, C.K., 2008. Longevity improve- ment of CaS:Eu phosphor using polymer binder coating for white LED application. J. Electrochem. Soc. 155, J132–J135. Park, J.Y., Lee, J.H., Raju, G.S.R., Moon, B.K., Jeong, J.H., Choi, B.C., Kim, J.H., 2014. Synthe- sis and luminescent characteristics of yellow emitting GdSr2AlO5:Ce3+ phosphor for blue light based white LED. Ceram. Int. 40, 5693–5698. Pavese, A., Artioli, G., Prencipe, M., 1995. X-ray single-crystal diffraction study of pyrope in the temperature range 30-973 K. Am. Miner. 80, 457–464. Peijzel, P.S., Meijerink, A., Wegh, R.T., Reid, M.F., Burdick, G.W., 2005. A complete 4fn energy level diagram for all trivalent lanthanide ions. J. Solid State Chem. 178, 448–453. Peng, W.F., Zou, S.Y., Liu, G.X., Xiao, Q.L., Zhang, R.J., Xie, L.J., Liu, Y.L., 2011. Combustion syn- thesis of CaSc2O4:Ce3+ nano-phosphors in a closed system. J. Alloys Compd. 509, 6673–6676. Peters, T.E., Baglio, J.A., 1972. Luminescence and structural properties of thiogallate phosphors Ce3+ and Eu2+-activated phosphors. Part I. J. Electrochem. Soc. 119, 230–236. Petrykin, V., Okube, M., Yamane, H., Sasaki, S., Kakihana, M., 2010. Sr2ZnS3: crystal structure and fluorescent properties of a New Eu(II)-activated yellow emission phosphor. Chem. Mater. 22, 5800–5802. Petzow, G., Herrmann, M., 2002. Silicon nitride ceramics. Struct. Bond. (Berlin) 102, 47–167. Pham-Thi, M., Ravaux, G., 1991. Calcium sulfide phosphors prepared by the flux method: I. Growth parameters and luminescent efficiency. J. Electrochem. Soc. 138, 1103–1106. Phillips, J.M., 2006. Chair, Research Needs for Solid-State Lighting: Report of the basic energy sciences workshop on solid-state lighting, 2006. U.S. Department of Energy, Office of Basic Energy Sciences, p. 169. Available at: http://www.usdoe.gov/bes/reports/files/SSL_rpt. pdf (accessed December 14, 2015).

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