[1] Peng Mingying, Pei Zhiwu, Hong Guangyan et al.. The reduction of Eu3+ in BaMgSiO4Eu prepared in air and the luminescence of BaMgSiO4Eu2+ phosphor[J]. J. Mater. Chem., 2003, 13(5): 1202~1205
[2] Peng Mingying, Da Ning, Qiao Yanbo et al.. Investigations on valence-change behaviors of europium ions in Eu-doped aluminate and silicate phosphors[J]. J. Rare Earths, 2006, 24(6): 749~753
[3] Zhang Cuimiao, Yang Jun, Lin Cuikun et al.. Reduction of Eu3+ to Eu2+ in MAl2Si2O8 (M=Ca, Sr, Ba) in air condition[J]. J. Solid State Chem., 2009, 182(7): 1673~1678
[4] Liu Bitao, Wang Yuhua, Zhou Jun et al.. The reduction of Eu3+ to Eu2+ in BaMgAl10O17Eu and the photoluminescence properties of BaMgAl10O17Eu2+ phosphor[J]. J. Appl. Phys., 2009, 106(5): 053102
[5] Pei Zhiwu, Zeng Qinghua, Su Qiang. The application and a substitution defect model for Eu3+→Eu2+ reduction in non-reduction atmospheres in borates containing BO4 anion groups[J]. J. Phys. Chem. Solids, 2000, 61(1): 9~12
[6] Peng Mingying, Hong Guangyan. Reduction from Eu3+ to Eu2+ in BaAl2O4Eu phosphor prepared in an oxidizing atmosphere and luminescent properties of BaAl2O4Eu[J]. J. Lumin., 2007, 127(2): 735~740
[7] Liang Hongbin, Tao Ye, Chen Wenxuan et al.. The luminescent properties of lanthanide ions activated BaBPO5 in VUV-Vis range[J]. J. Phys. Chem. Solids, 2004, 65(6): 1071~1076
[8] Pei Zhiwu, Su Qiang, Zhang Jiyu. The valence change from RE3+ to RE2+ (RE=Eu, Sm, Yb) in SrB4O7RE prepared in air and the spectral properties of RE2+[J]. J. Alloys Compd., 1993, 198(1~2): 51~53
[9] You Panli, Liu Lijuan, Yin Guangfu et al.. Enhanced the photoluminescent properties of BaMgSiO4Eu2+ prepared in air by alkali carbonate[J]. J. Funct. Mater., 2010, 41(11): 2014~2017
[10] Lin Yuanhua, Nan Cewen, Zhou Xisong et al.. Preparation and characterization of long afterglow M2MgSi2O7-Based (M: Ca, Sr, Ba) photoluminescent phosphors[J]. Mater. Chem. Phys., 2003, 82(3): 860~863
[11] Aitasalo Tuomas, Hls Jorma, Laamanen Taneli et al.. Luminescence properties of Eu2+ doped dibarium magnesium disilicate, Ba2MgSi2O7Eu2+[J]. Ceram. Silik., 2005, 49(1): 58~62
[12] Aitasalo Tuomas, Hreniak Dariusz, Hls Jorma et al.. Persistent luminescence of Ba2MgSi2O7Eu2+[J]. J. Lumin., 2007, 122-123: 110~112
[13] He Dawei, Shi Yanning, Zhou Dan et al.. Photoluminescence properties of M2MgSi2O7Re2+ (M=Ba, Sr, Ca)[J]. J. Lumin., 2007, 122-123: 158~161
[14] Kenji Toda, Y. Kawakami. New silicate phosphors for a white LED[J]. IEICE T. Electron., 2006, E89C(10): 1406~1412
[15] Zhang Xinguo, Zhang Jilin, Wang Rui et al.. Photo-physical behaviors of efficient green phosphor Ba2MgSi2O7Eu2+ and its applicationin light-emitting diodes[J]. J. Am. Ceram. Soc., 2010, 93(5): 1368~1371
[16] Akira Komeno, Kazuyoshi Uematsu, Kenji Toda et al.. VUV properties of Eu-doped alkaline earth magnesium silicate[J]. J. Alloys Compd., 2006, 408-412: 871~874
[17] Aitasalo Tuomas, Hls Jorma, Laamanen,Taneli et al.. Crystal structure of the monoclinic Ba2MgSi2O7 persistent luminescence material[J]. Z. Kristallogr. Suppl., 2006, 23: 481~486
[18] G. Blasse, W. L. Wanmaker, J. W. Tervrugt. Some new classes of efficient Eu2+-activated phosphors[J]. J. Electrochem. Soc., 1968, 115(6): 673
[19] G. Blasse, W. L. Wanmaker, J. W. Tervrugt. Fluorescence of Eu2+ activated silicates[J]. Philips. Res. Rep., 1968, 23: 189~193
[20] B. Liu, J. Barbier. Structures of the stuffed tridymite derivatives BaMSiO4 (M=Co, Zn, Mg)[J]. J. Sol. Stat. Chem., 1993, 102(1): 115~125
[21] M. A. Zaitoun, D. M. Goken, L. S. Bailey et al.. Thermoanalysis and emission properties of Eu3+/Eu2+ in Eu3+-doped xerogels[J]. J. Phys. Chem., B, 2000, 104(2): 189~196
[22] Z. Mao, D. Wang, Q. Lu et al.. Tunable single-doped single-host full-color-emitting LaAlO3Eu phosphor via valence state-controlled means[J]. Chem. Commun., 2009, (3): 346~348
[23] Shi Chunshan, Su Qiang, Liu Hongjian. Chemistry and Physics about Valence-Change Behaviors of Lanthanon[M]. Beijing: Science Press, 1994. 67~70
[24] Pei Zhiwu, Zeng Qinghua, Su Qiang. A study on the mechanism of the abnormal reduction of Eu3+→Eu2+ in Sr2B5O9Cl prepared in air at high temperature[J]. J. Solid State Chem., 1999, 145(1): 212~215
[25] Huang Yanlin, Jang Kiwan, Wang Xigang et al.. Optical properties of Eu2+-doped strontium borate glasses containing F- and Li+ ions[J]. J. Rare Earths, 2008, 26(4): 490~494
[26] Lian Zhihong, Wang Jing, Lv Yuhua et al.. The reduction of Eu3+ to Eu2+ in air and luminescence properties of Eu2+ activated ZnO-B2O3-P2O5 glasses[J]. J. Alloys Compd., 2007, 430(1~2): 257~261
[27] Liu Shimin, Zhao Gaoling, Ruan Wangle et al.. Reduction of Eu3+ to Eu2+ in aluminoborosilicate glasses prepared in air[J]. J. Am. Ceram. Soc., 2008, 91(8): 2740~2742
[28] Wang Chen, Peng Mingying, Jiang Nan et al.. Tuning the Eu luminescence in glass materials synthesized in air by adjusting glass compositions[J]. Mater. Lett., 2007, 61(17): 3608~3611
[29] Zhang Qiang, Qiao Yanbo, Qian Bin et al.. Luminescence properties of the Eu-doped porous glass and spontaneous reduction of Eu3+ to Eu2+[J]. J. Lumin., 2009, 129(11): 1393~1397
[30] Zhu Chaofeng, Yang Yunxia, Liang Xiaoluan et al.. Composition induced reducing effects on Eu Ions in borophosphate glasses[J]. J. Am. Ceram. Soc., 2007, 90(9): 2984~2986
[32] H. J. Lee, S. K. Hong, D. S. Jung et al.. Y3Al5O12Tb phosphor particles prepared by spray pyrolysis from spray solution with polymeric precursors and ammonium fluoride flux[J]. Mater. Lett., 2005, 59(19-20): 2383~2387
[33] Venkat Reddy P., Laxmi Kanth C., Prashanth Kumar V. et al.. Optical and thermoluminescence properties of R2O-RF-B2O3 glass systems doped with MnO[J]. J. Non-Cryst. Solid, 2005, 351(49-51): 3752
[34] C. H. R. Jager, U. Haubenreisser. Accurate phase adjustment for multiple pulse NMR of solids[J]. Phys. Chem. Glasses, 1985, 26: 152