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Nanoscopic Insights into InGaN/GaN Core–Shell Nanorods: Structure, Composition, and Luminescence

纳米棒 纳米尺度 发光 材料科学 芯(光纤) 纳米技术 发光二极管 光电子学 光致发光 复合材料
作者
Marcus Müller,Peter Veit,Florian F. Krause,Tilman Schimpke,Sebastian Metzner,F. Bertram,Thorsten Mehrtens,Knut Müller‐Caspary,Adrian Avramescu,Martin Straßburg,Andreas Rosenauer,J. Christen
出处
期刊:Nano Letters [American Chemical Society]
卷期号:16 (9): 5340-5346 被引量:45
标识
DOI:10.1021/acs.nanolett.6b01062
摘要

Nitride-based three-dimensional core–shell nanorods (NRs) are promising candidates for the achievement of highly efficient optoelectronic devices. For a detailed understanding of the complex core–shell layer structure of InGaN/GaN NRs, a systematic determination and correlation of the structural, compositional, and optical properties on a nanometer-scale is essential. In particular, the combination of low-temperature cathodoluminescence (CL) spectroscopy directly performed in a scanning transmission electron microscope (STEM), and quantitative high-angle annular dark field imaging enables a comprehensive study of the nanoscopic attributes of the individual shell layers. The investigated InGaN/GaN core–shell NRs, which were grown by metal–organic vapor-phase epitaxy using selective-area growth exhibit an exceptionally low density of extended defects. Using highly spatially resolved CL mapping of single NRs performed in cross-section, we give a direct insight into the optical properties of the individual core–shell layers. Most interesting, we observe a red shift of the InGaN single quantum well from 410 to 471 nm along the nonpolar side wall. Quantitative STEM analysis of the active region reveals an increasing thickness of the single quantum well (SQW) from 6 to 13 nm, accompanied by a slight increase of the indium concentration along the nonpolar side wall from 11% to 13%. Both effects, the increased quantum-well thickness and the higher indium incorporation, are responsible for the observed energetic shift of the InGaN SQW luminescence. Furthermore, compositional mappings of the InGaN quantum well reveal the formation of locally indium rich regions with several nanometers in size, leading to potential fluctuations in the InGaN SQW energy landscape. This is directly evidenced by nanometer-scale resolved CL mappings that show strong localization effects of the excitonic SQW emission.

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