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用水热法制备了Dy3+单掺及Dy3+,Er3+双掺GdVO4纳米荧光粉,通过X射线衍射(XRD)、扫描电子显微镜(SEM)、红外光谱仪(FTIR)和荧光(FL)光谱对合成样品的结构、形貌和发光性能进行表征;探讨了Dy3+掺杂浓度、络合剂对GdVO4:Dy3+纳米晶的结构、形貌和发光性能的影响;考察了不同波长的近红外光和紫外光激发的GdVO4:Dy3+,Er3+,得到不同颜色的上转换和下转换荧光光谱。以760~830 nm近红外光和210~380 nm紫外光激发GdVO4:Dy3+纳米晶,可获得Dy3+蓝绿色双模发光;其中蓝光来自于Dy3+离子的4F9/2→6H15/2跃迁,绿光由Dy3+离子4F9/2→6H13/2跃迁产生。 相似文献
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In order to bridge the gap between the supply and the demand of talent cultivation, the existing talent cultivation system of applied chemistry specialty is reformed and a new "113" talent cultivation system is guided by Outcome-Based Education (OBE) education. The advanced engineering education mode is adopted to provide students with an engineering education based on the background environment of the conceptual-design-implementation-operation (CDIO) process. The characteristic "three modernizations" education mechanism, namely, cooperative education, family training and personalized guidance, are implemented. By building a new system of "113" talents training, an engineering talent training environment is formed, which takes the family as a unit, the enterprise as the background, and the project as the carrier. The problem of separating the supply from the demand of talents training for applied chemistry specialty will be fundamentally solved. 相似文献
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采用高温固相法合成Sr3B2O6:Eu3+,Li+红色荧光粉,考察了激活剂Eu3+和电荷补偿剂Li+浓度对Sr3B2O6:Eu3+,Li+荧光粉发光性能的影响。结果表明:适量掺杂Eu3+、Li+离子并不改变Sr3B2O6的结构。当Eu3+掺杂量为4%、Li+的掺杂量为8%时,在900 ℃下灼烧2 h可以得到发光性能最佳的Sr2.9B2O6:0.04Eu3+,0.08Li+红色荧光粉。以394 nm的近紫外光激发时,Sr3B2O6:Eu3+,Li+荧光粉发射出红光,对应于Eu3+的4f-4f 跃迁,其中以614 nm附近的5D0→7F2跃迁发光最强,是一种有潜力用于白光LED的红色荧光粉。 相似文献
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采用高温固相法合成Sr3B2O6∶Eu3+,Li+红色荧光粉,考察了激活剂Eu3+和电荷补偿剂Li+浓度对Sr3B2O6∶Eu3+,Li+荧光粉发光性能的影响。结果表明:适量掺杂Eu3+、Li+离子并不改变Sr3B2O6的结构。当Eu3+掺杂量为4%、Li+的掺杂量为8%时,在900℃下灼烧2 h可以得到发光性能最佳的Sr2.9B2O6∶0.04Eu3+,0.08Li+红色荧光粉。以394 nm的近紫外光激发时,Sr3B2O6∶Eu3+,Li+荧光粉发射出红光,对应于Eu3+的4f-4f跃迁,其中以614 nm附近的5D0→7F2跃迁发光最强,是一种有潜力用于白光LED的红色荧光粉。 相似文献
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用水热法制备出GdVO4:Eu3上转换发光材料.对合成样品的发光性能进行研究,探讨了Eu3+掺杂量、pH值及乙二胺四乙酸二钠掺杂量对样品上转换发光性能的影响.结果表明:样品的结构为四方晶系,在793 nm近红外光的激发下,Eu3浓度为12;、pH值为3、乙二胺四乙酸二钠与稀土离子Eu3+掺杂比例为1:1时,GdVO4:Eu3+样品的上转换发光性能最好;且样品的发射光谱由四个发射峰组成,分别位于596 nm、619 nm、650 nm和698 nm处,归属于Eu3的5D0→7(J=1,2,3,4)电子跃迁. 相似文献
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采用高温固相法制备了Eu2+/Mn2+单激活和共激活的M3MgSi2O8-M2SiO4(M=Ba,Ca)两相荧光粉.通过X射线衍射(XRD)和荧光光谱(PL)对样品材料的晶体结构和光谱性能进行了表征.XRD测试结果表明所合成的样品具有M3MgSi2O8和M2SiO4两种晶相结构.PL测试显示,Eu2+在Ba3MgSi2O8-Ba2SiO4体系中发射442和502nm两个波带的光;而Eu2+在Ca2+部分取代Ba2+的BaCa2MgSi2O8-Ba1.31Ca0.69SiO4体系中发射420~520nm的连续波带,并且激发光谱向长波扩展,更加适用于被InGaN芯片(395 nm)激发.通过改变Mn2+的掺杂量可制得颜色可调的BaCa2MgSi2O8-Ba1.31Ca0.69SiO4:Eu2+,Mn2+白光荧光粉. 相似文献