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采用高温熔融法制备了xBi2O3-50B2O3-(50-x)BaO玻璃, 测定了样品玻璃的近红外光区的发射谱、荧光寿命以及Raman光谱. 在808 nm波长光的激发下, 50Bi2O3-50B2O3二元玻璃中未观察到近红外发光; 随体系中BaO的加入, 当x为40, 45以及49时, 玻璃样品中观察到了近红外宽带发光现象; BaO含量进一步增加, 当x=1030时, 近红外发光现象消失; 而当玻璃中Bi浓度很低时, 在0.5Bi2O3-50B2O3-50BaO及1Bi2O3-50B2O3-50BaO玻璃中发现了近红外发光现象, 且存在多个发光峰. 对铋离子近红外发光机理进行了初步的探讨.xBi2O3-50B2O3-(50-x)BaO glasses are prepared by melting method. Their infrared luminescence spectra, fluorescence decay curves and Raman scattering spectra are measured. No obvious near-infrared (NIR) luminescence is observed in 50Bi2O3-50B2O3 glass under 808 nm laser diode (LD) pumping. Adding BaO, broadband NIR luminescences are observed in 40Bi2O3-50B2O3-10BaO glass, 45Bi2O3-50B2O3-5BaO glass and 49Bi2O3-50B2O3-1BaO glass. With the increase of BaO concentration, no obvious NIR luminescences are observed in 30Bi2O3-50B2O3-20BaO glass, 20Bi2O3-50B2O3-30BaO glass and 10Bi2O3-50B2O3-40BaO glass. The NIR emissions with several emission peaks appear in 0.5Bi2O3-50B2O3-50BaO glass and 1Bi2O3-50B2O3-50BaO glass. The mechanism for the emission is investigated preliminarily.
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Keywords:
- near infrared emission /
- Bi ions /
- non-bridging oxygen
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[28] Zhang N, Qiu J R, Dong G P 2012 Journal of Materials Chemistry 22 3153
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[31] Guo X, Li H J, Su LB 2012 Optical Materials 34 675
[32] Yu P S, Su LB, Zhao H Y 2011 Optical Materials 33 831
[33] Baia L, Stefan Rn, Kiefer W 2002 Journal of Non-Crystalline Solids 303 379
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[35] Su L B, Zhou P, Xu J 2009 Opt. Express 17 13554
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[1] Yamada M, Ono H, Ohishi Y 1998 Electron. Lett 34 1490
[2] Fujimoto Y, Nakatsuka M 2001 Jpn. J. Appl. Phys 40 L279
[3] Peng M Y, Qiu J R, Cheng D P 2004 Opt. Lett. 29 1998
[4] Peng M Y, Qiu J R, Cheng D P 2005 Opt. Lett 30 2433
[5] Meng X G, Qiu J R, Peng M Y 2005 Opt. Express 13 1628
[6] Meng X G, Qiu J R, Peng M Y 2005 Opt. Express 13 1635
[7] Dvoyrin V V, Mashinsky V M Bulatov L I 2006 Opt. Lett. 31 2966
[8] Arai Y, Suzuki T, Ohishi Y 2007 Appl. Phys. Lett. 90 261110
[9] Sun H T, Miwa Y, Shimaoka F 2009 Opt. Lett. 34 1219
[10] Sokolov V O, Plotnichenko V G, Dianov E M 2008 Opt. Lett 33 1488
[11] Ren J, Wu B, Jiang X 2007 Appl. Phys. B 88 363
[12] Ren J, Qiu J R, Cheng D P 2008 J. Alloys and Compounds 463 L5
[13] Zhou S F, Dong H F, Zeng H P 2007 Appl. Phys. Lett. 91 061919
[14] S F, Jiang N, Zhu B 2008 Advanced Functional Materials 18 1407
[15] Peng M Y, Zhao Q Z, Qiu J R 2009 J. Am. Ceram. Soc. 92 542
[16] Zhou S F, Jiang N, Zhu B 2009 Advanced Functional Materials 19 2081
[17] Xia H P, Wang X J 2006 Appl. Phys. Lett. 89 051917
[18] Xia H P, Wang X J 2008 Spectrochimica Acta A 70 122
[19] Xia H P, Wang X J 2006 Optics Communications 268 75
[20] Wang X J, Xia H P 2006 Acta Phys. Sin. 55 5263 (in Chinese) [王雪俊, 夏海平 2006 55 5263
[21] Su L B, Xu J, Zhou P 2009 Opt. Lett. 34 2504
[22] Xu J, Zhao H Y, Su L B 2010 Opt. Express 18 3385
[23] Fujimoto Y, Nakatsuka M 2003 Appl. Phys. Lett. 82 3325
[24] Ruan J, Su L B, Qiu J R 2009 Opt. Express 17 5136
[25] Dvoyrin V V, Mashinsky V M, Dianov A A 2005 31st European Conference on Optics Communication Glasgow, Scotland 4 949
[26] Yang Z W, Liu Z L, Song Z G 2011 Materials Research Innovations 15 264
[27] Zhou D C, Liu Z L. Song Z G 2012 Acta Phys. Sin. 61 127802 (in Chinese) [周大成, 刘志亮, 宋志国 2012 61 127802]
[28] Zhang N, Qiu J R, Dong G P 2012 Journal of Materials Chemistry 22 3153
[29] Alexey N R, Zukhra T F, Alexander A V 2012 Opt. Expres 20 7212
[30] Alexey N R, Zukhra T F, Denis M Z 2011 Optical Materials 33 631
[31] Guo X, Li H J, Su LB 2012 Optical Materials 34 675
[32] Yu P S, Su LB, Zhao H Y 2011 Optical Materials 33 831
[33] Baia L, Stefan Rn, Kiefer W 2002 Journal of Non-Crystalline Solids 303 379
[34] Liu J F, Su LB Xu J 2012 Acta Phys. Sin. 61 127806 (in Chinese) [刘军芳, 苏良碧, 徐军 2012 61 127806]
[35] Su L B, Zhou P, Xu J 2009 Opt. Express 17 13554
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