Advances in spectral conversion for photovoltaics: up-converting Er3+ doped YF3 nano-crystals in transparent glass ceramic

Optics + Photonics for Sustainable Energy Pub Date : 2011-09-20 DOI:10.1117/12.897526

J. Marqués-Hueso, Daqin Chen, S. K. W. MacDougall, Yuansheng Wang, B. Richards

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引用次数: 3

Abstract

Up- and down-conversion (UC, DC) constitute two singular routes to achieve improved energy harvesting of sunlight by changing its shape of the solar spectrum. To obtain a significant conversion rate two main challenges have to be overcome: i) the excited lanthanide ions have to emit efficiently, a target which has been better accomplished for DC materials; ii) the absorption in the lanthanide-based UC and DC layers has to be high to ensure a sizeable fraction of photons can be harvested. In this paper, we review such materials and their use as spectral converters for photovoltaics (PV), paying special attention to the UC and DC processes in lanthanide glasses in fluoride matrices. We discuss the challenges that need to be overcome in order to implement these materials in real PV devices. Finally, we will present the synthesis of erbium (Er3+) doped YF3 nano-crystals embedded in transparent glass ceramic (TGC) by melt quenching. This material presents a low phonon energy environment for the Er3+ ions due to the fluoride crystals, while the silica glass provides chemical and mechanical stability to the compound.

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光电光谱转换的研究进展:透明玻璃陶瓷中Er3+掺杂YF3纳米晶体的上转换

向上和向下转换(UC, DC)是通过改变太阳光谱的形状来实现提高能量收集的两种途径。为了获得显著的转化率，必须克服两个主要挑战:1)激发的镧系离子必须有效地发射，这是直流材料已经更好地完成的目标;ii)基于镧系元素的UC和DC层的吸收率必须很高，以确保能够收获相当大比例的光子。在本文中，我们回顾了这些材料及其在光伏(PV)中作为光谱转换器的应用，特别关注了氟基镧系玻璃中的UC和DC工艺。我们讨论了在实际的光伏设备中实现这些材料所需要克服的挑战。最后，我们将介绍用熔融淬火法制备掺铒YF3纳米晶体嵌入透明玻璃陶瓷(TGC)。由于氟化物晶体，该材料为Er3+离子提供了低声子能量环境，而硅玻璃为化合物提供了化学和机械稳定性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Optics + Photonics for Sustainable Energy

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