Optical Properties of Neodymium Doped Magnesium Zinc Sulfo- Phopshate Glass: Impact of Gold Nanoparticles Inclusion

Journal of Science and Mathematics Letters Pub Date : 2018-12-03 DOI:10.37134/jsml.vol6.8.2018

N. N. Yusof, S. K. Ghoshal

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Abstract

Gold (Au) nanoparticles (NPs) incorporated in magnesium zinc sulfo-phosphate glass with the molar composition of (58.5P_2O_5–20MgO–20ZnSO_4–1.5Nd_2O_3–xAu NPs (where x = 0.0, 0.1, 0.2, 0.3, and 0.4 mol%) were prepared via melt quench technique. The effect of Au NPs as incorporated in Nd^3+ doped glasses were studied using X‒ray diffraction (XRD), High Resolution-Transmission Electron Microscope (HR‒TEM), UV‒Visible-NIR absorption spectrometer and photoluminescence spectrometer. The amorphous nature of glass is confirmed via XRD measurements and existence of Au NPs inside the glass is reveal by HR-EM. The typical absorption bands of Nd^3+ are attained which positioned around 352, 430, 459, 474, 512, 525, 581, 626, 682, 744, 801and 875 nm. Up-conversion (UC) photoluminescence (PL) demonstrated six prominent emission bands located around 420, 445, 460, 484, 515 and 545 nm corresponding transition 2P_1/2--> 4I_9/2, 2D_5/2-->4I_11/2, 2P_1/2-->4I_11/2, 2D_5/2-->4I_13/2, 2K_15/2,4G_7/2-->4I_11/2,4I_9/2 and 2D_5/2-->4I_15/2 respectively. Glass containing 0.1 mol% of Au NPs shows utmost PL enhancement and the emission decrease beyond 0.1 mol% of Au NPs depicts re-absorption of SPR and increase of non-radiative channel. The improvement of PL intensity attributed to local field effect of Au NPs that altered the environment in proximity Nd^3+ ions. The proposed glass could be potential for improvement of solid state laser design.

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掺钕硫酸镁锌玻璃的光学性质:金纳米颗粒包裹体的影响

采用熔体淬火技术制备了摩尔组成为(58.5P_2O_5-20MgO-20ZnSO_4-1.5Nd_2O_3-xAu的纳米金(Au)纳米粒子(NPs)，其中x = 0.0、0.1、0.2、0.3和0.4 mol%)。采用x射线衍射仪(XRD)、高分辨透射电镜(HR-TEM)、紫外-可见-近红外吸收光谱仪和光致发光光谱仪研究了Au NPs在Nd^3+掺杂玻璃中的掺入效果。通过XRD测量证实了玻璃的非晶性质，并通过HR-EM揭示了玻璃内部存在Au NPs。得到Nd^3+的典型吸收带，位于352、430、459、474、512、525、581、626、682、744、801和875 nm左右。上转换(UC)光致发光(PL)分别在420、445、460、484、515和545 nm处显示出6个突出的发射带，对应的跃迁分别为2P_1/2—> 4I_9/2、2D_5/2—>4I_11/2、2P_1/2—>4I_11/2、2D_5/2—>4I_13/2、2K_15/2、4G_7/2—>4I_11/2、4I_9/2和2D_5/2—>4I_15/2。含有0.1 mol% Au NPs的玻璃表现出最大的PL增强，超过0.1 mol% Au NPs后，发射降低，SPR重吸收，非辐射通道增加。在靠近Nd^3+离子的环境中，Au NPs的局域场效应改变了PL强度的提高。所提出的玻璃具有改进固体激光器设计的潜力。

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Journal of Science and Mathematics Letters

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