KU Leuven, INPAC - Institute for Nanoscale Physics & Chemistry, Celestijnenlaan 200D, 3001, Leuven, Belgium.
Nanoscale. 2013 Nov 7;5(21):10065-75. doi: 10.1039/c3nr02798h. Epub 2013 Aug 15.
An ever growing demand for efficient energy conversion, for instance in luminescent lamps, flexible screens and solar cells, results in the current significant growth of research on functionalized nanomaterials for these applications. This paper reviews recent developments of a new class of optically active nanostructured materials based on glasses doped with luminescent Ag nanoclusters consisting of only a few Ag atoms, suitable for mercury-free white light generation and solar down-shifting. This new approach, based solely on Ag nanocluster doped glasses, is compared to other alternatives in the field of Ag and rare-earth ion co-doped materials.
对高效能量转换的需求不断增长,例如在荧光灯、柔性屏幕和太阳能电池中,这导致了当前针对这些应用的功能化纳米材料的研究显著增长。本文综述了一类基于玻璃的新型光学活性纳米结构材料的最新进展,这些玻璃中掺杂有仅包含少数几个银原子的发光 Ag 纳米团簇,适用于无汞白光产生和太阳能下转换。这种仅基于 Ag 纳米团簇掺杂玻璃的新方法与 Ag 和稀土离子共掺杂材料领域的其他替代方法进行了比较。
