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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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116 Handbook on the Physics and Chemistry of Rare Earths Li, C., Dai, J., Deng, D., Shen, C., Xu, S., 2015a. Synthesis, luminescent properties and white light emitting diode application of Ba7Zr(PO4)6:Eu2+ yellow-emitting phosphor. Physica B 475, 105–109. Li, C., Chen, H., Xu, S., 2015b. Ba3Si6O12N2:Eu2+ green-emitting phosphor for white light emitting diodes: luminescent properties optimization and crystal structure analysis. Optik 126, 499–502. Lin, H., Liu, X.R., Pun, E.Y.B., 2002. Sensitized luminescence and energy transfer in Ce3+ and Eu2+ codoped calcium magnesium chlorosilicate. Opt. Mater. 18, 397–401. Lin, Y., Nan, C.W., Zhou, X., Wu, J., Wang, H., Chen, D., Xu, S., 2003. Preparation and charac- terization of long afterglow M2MgSi2O7-based (M: Ca, Sr, Ba) photoluminescent phosphors. Mater. Chem. Phys. 82, 860–863. Liu, G.K., Jacquier, B., 2005. Spectroscopic Properties of Rare Earths in Optical Materials. Springer Verlag, Berlin. Liu, Y., Zhang, X., Hao, Z., Luo, Y., Wang, X., Ma, L., Zhang, J., 2013a. Luminescence and energy transfer in Ca3Sc2Si3O12:Ce3+,Mn2+ white LED phosphors. J. Lumin. 133, 21–24. Liu, C., Xia, Z., Lian, Z., Zhou, J., Yan, Q., 2013b. Structure and luminescence properties of green-emitting NaBaScSi2O7:Eu2+ phosphors for near-UV-pumped light emitting diodes. J. Mater. Chem. C 1, 7139–7147. Lu, F.C., Song, X.P., Liu, Q.L., 2010. Crystal structure and photoluminescence properties of (Y1xCex)4Si2O7N2. Opt. Mater. 33, 91–98. Lu, F.C., Chen, X.Y., Wang, M.W., Liu, Q.L., 2011. Crystal structure and photoluminescence of (Y1xCex)2Si3O3N4. J. Lumin. 131, 336–341. Luo, Y., Xia, Z., 2014. Effect of partial nitridation on the structure and luminescence properties of melilite-type Ca2Al2SiO7:Eu2+ phosphor. Opt. Mater. 36, 1874–1878. Luo, Y.Y., Jo, D.S., Senthil, K., Tezuka, S., Kakihana, M., Toda, K., Masaki, T., Yoon, D.H., 2012. Synthesis of high efficient Ca2SiO4:Eu2+ green emitting phosphor by a liquid phase precursor method. J. Solid State Chem. 189, 68–74. Ma, B., Huang, Z., Fang, M., Liu, Y., Wu, X., 2015. Structural and luminescence properties of red-emitting Cs1xMgPO4:xEu2+ phosphors for near-UV-pumped light emitting diodes. RSC Adv. 5, 9933–9938. Machida, K., Adachi, G., Shiokawa, J., Shimada, M., Koizumi, M., Suito, K., Onodera, A., 1982. High-pressure synthesis, crystal structures, and luminescence properties of europium(II) metasilicate and europium(II)-activated calcium and strontium metasilicates. Inorg. Chem. 21, 1512–1519. MacKenzie, K.J.D., Gainsford, G.J., Ryan, M.J., 1996. Rietveld refinement of the crystal struc- tures of the yttrium silicon oxynitrides Y2Si3N4O3 (N-melilite) and Y4Si2O7N2 (J-phase). J. Eur. Ceram. Soc. 16, 553–560. Mathew, M., Mayer, I., Dickens, B., Schroeder, L., 1979. Substitution in barium-fluoride apatite: the crystal structures of Ba10(PO4)6F2, Ba6La2Na2(PO4)6F2 and Ba4Nd3Na3(PO4)6F2. J. Solid State Chem. 28, 79–95. Matsuda, N., Tamatani, M., Okumura, M., Albessard, A.K., Inoue, Y., Kawasaki, K., 1998. Prep- aration of spherical phosphors by thermal-plasma treatment. J. Soc. Inf. Disp. 6, 159–161. Meagher, E.P., 1975. The crystal structures of pyrope and grossularite at elevated temperatures. Am. Miner. 60, 218–228. Meneghini, M., Dal Lago, M., Trivellin, N., Meneghesso, G., Zanoni, E., 2013. Thermally acti- vated degradation of remote phosphors for application in LED lighting. IEEE Trans. Device Mater. Reliab. 13, 316–318. Mikami, M., Watanabe, H., Uheda, K., Kijima, N., 2008. Nitridoaluminosilicate CaAlSiN3 and its derivatives—theory and experiment. Mater. Res. Soc. Symp. Proc. 1040. Q10.

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