Physical, Thermal, and Optical Properties of Mn2+ and Nd3+ Containing Barium Phosphate Glasses

IF 3.7 Q2 CHEMISTRY, PHYSICAL ACS Physical Chemistry Au Pub Date : 2024-04-26 DOI:10.1021/acsphyschemau.4c00020
José A. Jiménez
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Abstract

This work reports on various properties and analysis of optical interactions in phosphate glasses containing red-emitting Mn2+ and near-infrared (NIR)-emitting Nd3+ ions, which are of interest for energy applications and solar spectral converters. The glasses were made by melting with 50P2O5–(48 – x)BaO–2MnO–xNd2O3 (x = 0, 0.5, 1.0, and 2.0 mol %) nominal compositions and characterized by X-ray diffraction, density and related physical properties, differential scanning calorimetry, dilatometry, UV–vis–NIR optical absorption, and photoluminescence spectroscopy with decay kinetics analysis. The glasses were X-ray amorphous, wherein the physical and thermal properties of the Mn2+/Nd3+-codoped glasses were largely impacted by Nd2O3 contents. The optical absorption spectra supported the occurrence of Mn2+ ions and the lack of Mn3+ in the codoped glasses, while the absorption due to Nd3+ ions increased steadily with Nd2O3 contents. Analyzing the glass absorption edges via Tauc and Urbach plots was further pursued for a comparison. The photoluminescence evaluation showed a consistent suppression of the emission from Mn2+ ions with increasing Nd3+ concentration, while the decay kinetics revealed shorter lifetimes in connection with increased Mn2+ → Nd3+ transfer efficiencies. Excitation of Mn2+ at 410 nm, however, led to the Nd3+ NIR emission being most intense for 1.0 mol % Nd2O3, despite the 4F3/2 emission decay analysis showing lifetime shortening throughout. Considering the compromise between red and NIR emissions, the Mn-containing glass doped with 0.5 mol % Nd2O3 is put in perspective with the concept of solar spectral conversion.

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含 Mn2+ 和 Nd3+ 磷酸钡玻璃的物理、热和光学特性
本研究报告介绍了含有红色发光 Mn2+ 离子和近红外(NIR)发光 Nd3+ 离子的磷酸盐玻璃的各种特性以及对其光学相互作用的分析。这些玻璃是用 50P2O5-(48-x)BaO-2MnO-xNd2O3(x = 0、0.5、1.0 和 2.0 mol %)标称成分熔化制成的,并通过 X 射线衍射、密度和相关物理性质、差示扫描量热法、膨胀率测定法、紫外-可见-近红外光学吸收以及光致发光光谱和衰变动力学分析进行了表征。玻璃呈 X 射线无定形,其中掺杂 Mn2+/Nd3+ 的玻璃的物理和热性能主要受 Nd2O3 含量的影响。光学吸收光谱证明了掺杂玻璃中存在 Mn2+ 离子而缺少 Mn3+ 离子,而 Nd3+ 离子的吸收随着 Nd2O3 含量的增加而稳步增加。为了进行比较,还进一步通过陶克图和乌尔巴赫图分析了玻璃的吸收边缘。光致发光评估显示,随着 Nd3+ 浓度的增加,Mn2+ 离子的发射受到了一致的抑制,而衰变动力学则显示,随着 Mn2+ → Nd3+ 转移效率的增加,寿命也会缩短。然而,在 410 纳米波长处激发 Mn2+ 会导致 1.0 摩尔%的 Nd2O3 的 Nd3+ 近红外发射最强烈,尽管 4F3/2 发射衰变分析显示整个寿命都在缩短。考虑到红外和近红外发射之间的折衷,掺杂 0.5 摩尔% Nd2O3 的含锰玻璃可以从太阳光谱转换的概念中得到启示。
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期刊介绍: ACS Physical Chemistry Au is an open access journal which publishes original fundamental and applied research on all aspects of physical chemistry. The journal publishes new and original experimental computational and theoretical research of interest to physical chemists biophysical chemists chemical physicists physicists material scientists and engineers. An essential criterion for acceptance is that the manuscript provides new physical insight or develops new tools and methods of general interest. Some major topical areas include:Molecules Clusters and Aerosols; Biophysics Biomaterials Liquids and Soft Matter; Energy Materials and Catalysis
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