| Er^3+,Cr^3+共掺杂BaAl2Si2O8荧光粉的发光性质及能量传递 |
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| 引用本文: | 孙兰兰,热孜宛古丽·延塔克,王庆玲,何久洋,艾尔肯·斯地克.Er^3+,Cr^3+共掺杂BaAl2Si2O8荧光粉的发光性质及能量传递[J].光子学报,2020,49(3):117-123. |
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| 作者姓名: | 孙兰兰 热孜宛古丽·延塔克 王庆玲 何久洋 艾尔肯·斯地克 |
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| 作者单位: | 新疆师范大学物理与电子工程学院,新疆矿物发光材料及其微结构实验室,新型光源与微纳光学实验室,乌鲁木齐830054,新疆师范大学物理与电子工程学院,新疆矿物发光材料及其微结构实验室,新型光源与微纳光学实验室,乌鲁木齐830054,新疆师范大学物理与电子工程学院,新疆矿物发光材料及其微结构实验室,新型光源与微纳光学实验室,乌鲁木齐830054,新疆师范大学物理与电子工程学院,新疆矿物发光材料及其微结构实验室,新型光源与微纳光学实验室,乌鲁木齐830054,新疆师范大学物理与电子工程学院,新疆矿物发光材料及其微结构实验室,新型光源与微纳光学实验室,乌鲁木齐830054 |
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| 基金项目: | 新疆师范大学“十三五”校级重点学科物理学招标课题;新疆自治区高校科研项目;新疆师范大学硕士研究生科研创新项目 |
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| 摘 要: | 利用高温固相法合成BaAl2Si2O8:Cr^3+,Er^3+系列荧光粉,研究了Cr^3+和Er^3+掺杂对BaAl2Si2O8材料发光特性的影响.BaAl2Si2O8:Er^3+荧光样品在393 nm激发波长下只呈现出峰值为550 nm的绿色荧光,来源于2H11/2→4I15/2和4S3/2→4I15/2跃迁的叠加.BaAl2Si2O8:Cr^3+荧光样品在550 nm激发波长下呈现峰值为694 nm的红色荧光,来源于2E→4A2的跃迁.在共掺杂样品BaAl2Si2O8:Cr^3+,Er^3+中,用Cr^3+激发峰的凹槽处380 nm作为激发光,得到的发射峰不仅有Er^3+的发射峰位,还有Cr^3+的发射峰位,说明两个离子之间可能存在辐射能量传递;对共掺杂BaAl2Si2O8:1%Cr^3+,x%Er^3+样品的荧光光谱进行测试,随着x的增加,Cr^3+的激发和发射光谱强度均有所增加,并且当x=0.5时,光谱强度是原来的4倍.另外,当固定Cr^3+的浓度时,随着Er^3+的浓度增加,Cr^3+的荧光寿命逐渐增加;当固定Er^3+的浓度时,随着Cr^3+的浓度增加,Er^3+的荧光寿命逐渐减小.这些现象表明了Er^3+和Cr^3+之间存在共振能量传递,通过理论计算得到Er^3+和Cr^3+之间的能量临界距离为4.5 nm,属于电偶极-电偶极相互作用.
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| 关 键 词: | 硅酸盐 发光材料 高温固相法 BaAl2Si2O8:Cr^3+ Er^3+ 能量传递 |
Luminescent Properties and Energy Transfer of Er3+ , Cr3+ Co-doped BaAl2Si2O8 Phosphors |
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| SUN Lan-lan,Yantake · Reziwanguli,WANG Qing-ling,HE Jiu-yang,Sidike· Aierken.Luminescent Properties and Energy Transfer of Er3+ , Cr3+ Co-doped BaAl2Si2O8 Phosphors[J].Acta Photonica Sinica,2020,49(3):117-123. |
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| Authors: | SUN Lan-lan Yantake · Reziwanguli WANG Qing-ling HE Jiu-yang Sidike· Aierken |
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| Institution: | (Laboratory of Novel Light Source and Micro/Nano-Optics,Laboratory of Mineral Luminescent Material and Microstructure of Xinjiang,School of Physics and Electronic Engineering,Xinjiang Normal University,Urumqi 830054,China) |
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| Abstract: | BaAl2Si2O8:Cr^3+,Er^3+series phosphors were synthesized by high-temperature solid-phase method.The effects of Cr^3+and Er^3+doping on the light-emitting properties of BaAl2Si2O8 materials were studied.The BaAl2Si2O8:Er^3+fluorescence sample exhibited only green fluorescence with a peak value of 550 nm at an excitation wavelength of 393 nm,which is derived from the superposition of 2H11/2→4I15/2 and 4 S3/2 →4 I15/2 transitions.The BaAl2Si2O8:Cr^3+fluorescence sample exhibits red fluorescence with a peak value of 694 nm at an excitation wavelength of 550 nm,which is derived from the 2 E→4 A2 transition.In the co-doped samples BaAl2Si2O8:Cr^3+,Er^3+,380 nm is used as the excitation light at the groove of the Cr^3+excitation peak,and the obtained emission peaks include not only the emission peak position of Er^3+,but also the emission peak position of Cr^3+,which indicates that there may be radiant energy transfer between them;the fluorescence spectra of the co-doped BaAl2Si2O8:1%Cr^3+,x% Er^3+samples were tested.With the increase of x,the intensity of the excitation and emission spectra of Cr^3+increased,and when x=0.5,the spectral intensity is 4 times the original.In addition,when the concentration of Cr^3+is fixed,the fluorescence lifetime of Cr^3+gradually increases as the concentration of Er^3+increases;when the concentration of Er^3+is fixed,the fluorescence lifetime of Er^3+decreases gradually as the concentration of Cr^3+increases.These phenomena indicate the existence of resonance energy transfer between Er^3+and Cr^3+.The critical energy distance between Er^3+and Cr^3+is4.5 nm,which is an electric dipole-dipole(d-d)interaction. |
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| Keywords: | Silicate Luminescent material High temperature solid phase method BaAl2Si2O8:Cr^3+ Er^3+ Energy transfer |
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