Highly efficient excitonic emission of CBD grown ZnO micropods (Presentation Recording)

R. Aad, A. Gokarna, K. Nomenyo, P. Miska, W. Geng, C. Couteau, G. Lerondel
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Abstract

Due to its wide direct band gap and large exciton binding energy allowing for efficient excitonic emission at room temperature, ZnO has attracted attention as a luminescent material in various applications such as UV-light emitting diodes, chemical sensors and solar cells. While low-cost growth techniques, such as chemical bath deposition (CBD), of ZnO thin films and nanostructures have been already reported; nevertheless, ZnO thin films and nanostructures grown by costly techniques, such as metalorganic vapour phase epitaxy, still present the most interesting properties in terms of crystallinity and internal quantum efficiency. In this work, we report on highly efficient and highly crystalline ZnO micropods grown by CBD at a low temperature (< 90°C). XRD and low-temperature photoluminescence (PL) investigations on as-grown ZnO micropods revealed a highly crystalline ZnO structure and a strong UV excitonic emission with internal quantum efficiency (IQE) of 10% at room temperature. Thermal annealing at 900°C of the as-grown ZnO micropods leads to further enhancement in their structural and optical properties. Low-temperature PL measurements on annealed ZnO micropods showed the presence of phonon replicas, which was not the case for as-grown samples. The appearance of phonon replicas provides a strong proof of the improved crystal quality of annealed ZnO micropods. Most importantly, low-temperature PL reveals an improved IQE of 15% in the excitonic emission of ZnO micropods. The ZnO micropods IQE reported here are comparable to IQEs reported on ZnO structures obtained by costly and more complex growth techniques. These results are of great interest demonstrating that high quality ZnO microstructures can be obtained at low temperatures using a low-cost CBD growth technique.
CBD生长ZnO微荚的高效激子发射(演讲录音)
由于ZnO具有宽的直接带隙和大的激子结合能,可以在室温下高效地发射激子,因此ZnO作为一种发光材料在紫外发光二极管、化学传感器和太阳能电池等领域得到了广泛的应用。虽然已经报道了低成本生长技术,如化学浴沉积(CBD), ZnO薄膜和纳米结构;然而,通过昂贵的技术,如金属有机气相外延生长的ZnO薄膜和纳米结构,在结晶度和内部量子效率方面仍然表现出最有趣的特性。在这项工作中,我们报道了在低温(< 90°C)下由CBD生长的高效高结晶ZnO微荚。XRD和低温光致发光(PL)研究表明,生长ZnO微荚在室温下具有高度结晶的ZnO结构和强紫外激子发射,内量子效率(IQE)为10%。在900°C下对生长的ZnO微球进行热处理,进一步增强了其结构和光学性能。对退火ZnO微球的低温PL测量显示存在声子复制品,而在生长样品中则没有这种情况。声子复制品的出现有力地证明了退火ZnO微球晶体质量的提高。最重要的是,低温PL显示ZnO微荚的激子发射IQE提高了15%。本文报道的氧化锌微荚IQE与通过昂贵和更复杂的生长技术获得的氧化锌结构的IQE相当。这些结果表明,使用低成本的CBD生长技术可以在低温下获得高质量的ZnO微结构。
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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