Upconversion emission of Tm3+ doped germinate tellurite glasses with Au-Ag core-shell nanoparticles

S. K. Mahajan, Ghizal F. Ansari
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Abstract

Rare-earth (RE) with metal nanoparticle (NPs) doped glasses greatly contribute to enhancement in visible and NIR emission of the RE ions due to local surface plasmon resonance (SPR). The germinates tungsten tellurite glasses composition of TeO2−GeO2−Li2O-WO3−Yb2O3−Tm2O3− xAu(NO3)3−yAgNO3 with (x= 0.03-0.3 and y=0.006 mol%) - nanoparticles embedded glasses using melt quenching technique have been synthesized and reheated 10hrs for the growth of core-shell bimetallic (Au0−Ag0) nanoparticles in glasses. The absorption spectrum of Tm3+ in germinates tellurite glass containing (Au0 −Ag0) nanoparticles shows peaks from ground state (3H6) variation near 400-540nm due to SPR bands. Also,upconversion emission enhancement in 653nm red (1G4→3H6) has been observed at 980nm excitation at room temperature and enhancement is found to be about ∼2 folds due to SPR. The Confocal fluorescence was used to observe the image of fluorescence of Ag-Au NPs core-shell in the glass under 488nm laser excitation. On doping percentage of Au and Ag for the formation of core-shell glass,samples are attributed to maximum enhancement due to the local field on the Tm3+ ions locations and explained by the energy transfer mechanism. Results show that core-shell Au- Ag NPs play a significant role in enhancement red emission of Tm3+ ions and this hybrid-nano composite may be used for laser-based applications.
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金-银核-壳纳米颗粒掺杂Tm3+萌发型碲酸盐玻璃的上转换发射
稀土与金属纳米粒子(NPs)掺杂的玻璃由于局部表面等离子体共振(SPR),极大地增强了稀土离子的可见光和近红外发射。采用熔体淬火技术合成了TeO2 - GeO2 - li20 - wo3 - Yb2O3 - Tm2O3 - xAu(NO3)3 - yAgNO3 (x= 0.03-0.3, y=0.006 mol%)纳米颗粒嵌入玻璃的萌发型碲酸钨玻璃,并将其再加热10h,在玻璃中生长出核壳双金属(Au0 - Ag0)纳米颗粒。在含有(Au0−Ag0)纳米颗粒的萌发碲酸盐玻璃中,Tm3+的吸收光谱在400-540nm附近的基态(3H6)变化中由于SPR波段出现峰值。此外,在室温下980nm激发下,观察到653nm红光(1G4→3H6)的上转换发射增强,并且由于SPR的作用,增强约为2倍。用共聚焦荧光观察了Ag-Au NPs在488nm激光激发下在玻璃中的核壳荧光图像。在形成核壳玻璃的Au和Ag掺杂百分比上,样品的最大增强归因于Tm3+离子位置上的局部场,并可以用能量转移机制来解释。结果表明,核壳型Au- Ag纳米粒子对Tm3+离子的红光发射有显著的增强作用,这种混合纳米复合材料可用于激光。
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