An intense photoluminescence emission was observed from noble metal nanoclusters (Pt, Ag or Au) embedded in sapphire plates, nucleated by MeV ion-implantation and assisted by an annealing process. In particular, the spectral photoluminescence characteristics, such as range and peak emission, were compared to the behavior observed from Pt nanoclusters embedded in a silica matrix and excited by UV irradiation. Correlation between emission energy, nanoclusters size and metal composition were analyzed by using the scaling energy relation EFermi/N1/3 from the spherical Jellium model. The metal nanocluster luminescent spectra were numerically simulated and correctly fitted using the bulk Fermi energy for each metal and a Gaussian nanoclusters size distribution for the samples. Our results suggest protoplasmonics photoluminescence from metal nanoclusters free of surface state or strain effects at the nanoclusters-matrix interface that can influence over their optical properties. These metal nanoclusters present very promising optical features such as bright visible photoluminescence and photostability under strong picosecond laser excitations. Besides superlinear photoluminescence from metal nanoclusters were also observed under UV high power excitation showing a quadratic dependence on the pump power fluence.
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机译:观察到嵌入在蓝宝石平板中的贵金属纳米团簇(Pt,Ag或Au)发出强烈的光致发光,该团簇通过MeV离子注入成核并通过退火过程辅助。具体而言,将光谱光致发光特性(例如范围和峰值发射)与从嵌入二氧化硅基质并通过UV辐射激发的Pt纳米团簇观察到的行为进行了比较。利用球形Jellium模型的标度能量关系EFermi / N 1/3 分析了发射能,纳米团簇尺寸与金属组成之间的关系。对金属纳米团簇的发光光谱进行了数值模拟,并使用每种金属的大量费米能和样品的高斯纳米团簇尺寸分布进行了正确拟合。我们的结果表明,来自金属纳米团簇的原质子光致发光在纳米团簇-基质界面处没有表面状态或应变效应,这可能会影响其光学性能。这些金属纳米团簇具有非常有前途的光学特性,例如在强大的皮秒激光激发下可见的可见光致发光和光稳定性。此外,在紫外高功率激发下,还观察到了金属纳米团簇的超线性光致发光,显示出对泵浦功率通量的二次依赖性。
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