Nanocathodoluminescence Reveals Mitigation of the Stark Shift in InGaN Quantum Wells by Si Doping

James T. Griffiths; Siyuan Zhang; Bertrand Rouet-Leduc; Wai Yuen Fu; An Bao; Dandan Zhu; David J. Wallis; Ashley Howkins; Ian Boyd; David Stowe; Menno J. Kappers; Colin J. Humphreys; Rachel A. Oliver

Journal ArticleOPEN ACCESS

Nanocathodoluminescence Reveals Mitigation of the Stark Shift in InGaN Quantum Wells by Si Doping

Nano Letters (2015) 15(11) 7639-7643

DOI: 10.1021/acs.nanolett.5b03531

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Abstract

Nanocathodoluminescence reveals the spectral properties of individual InGaN quantum wells in high efficiency light emitting diodes. We observe a variation in the emission wavelength of each quantum well, in correlation with the Si dopant concentration in the quantum barriers. This is reproduced by band profile simulations, which reveal the reduction of the Stark shift in the quantum wells by Si doping. We demonstrate nanocathodoluminescence is a powerful technique to optimize doping in optoelectronic devices.

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Griffiths, J. T., Zhang, S., Rouet-Leduc, B., Fu, W. Y., Bao, A., Zhu, D., … Oliver, R. A. (2015). Nanocathodoluminescence Reveals Mitigation of the Stark Shift in InGaN Quantum Wells by Si Doping. Nano Letters, 15(11), 7639–7643. https://doi.org/10.1021/acs.nanolett.5b03531

Nanocathodoluminescence Reveals Mitigation of the Stark Shift in InGaN Quantum Wells by Si Doping

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