Aluminum Nitride Ultraviolet Light-Emitting Device Excited via Carbon Nanotube Field-Emission Electron Beam

With the progress of wide bandgap semiconductors, compact solid-state light-emitting devices for the ultraviolet wavelength region are of considerable technological interest as alternatives to conventional ultraviolet lamps in recent years. Here, the potential of aluminum nitride (AlN) as an ultravi...

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Autores principales: Yu, Yangcheng, Han, Dong, Wei, Haiyuan, Tang, Ziying, Luo, Lei, Hong, Tianzeng, Shen, Yan, Zheng, Huying, Wang, Yaqi, Wang, Runchen, Zhu, Hai, Deng, Shaozhi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10053685/
https://www.ncbi.nlm.nih.gov/pubmed/36985961
http://dx.doi.org/10.3390/nano13061067
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author Yu, Yangcheng
Han, Dong
Wei, Haiyuan
Tang, Ziying
Luo, Lei
Hong, Tianzeng
Shen, Yan
Zheng, Huying
Wang, Yaqi
Wang, Runchen
Zhu, Hai
Deng, Shaozhi
author_facet Yu, Yangcheng
Han, Dong
Wei, Haiyuan
Tang, Ziying
Luo, Lei
Hong, Tianzeng
Shen, Yan
Zheng, Huying
Wang, Yaqi
Wang, Runchen
Zhu, Hai
Deng, Shaozhi
author_sort Yu, Yangcheng
collection PubMed
description With the progress of wide bandgap semiconductors, compact solid-state light-emitting devices for the ultraviolet wavelength region are of considerable technological interest as alternatives to conventional ultraviolet lamps in recent years. Here, the potential of aluminum nitride (AlN) as an ultraviolet luminescent material was studied. An ultraviolet light-emitting device, equipped with a carbon nanotube (CNT) array as the field-emission excitation source and AlN thin film as cathodoluminescent material, was fabricated. In operation, square high-voltage pulses with a 100 Hz repetition frequency and a 10% duty ratio were applied to the anode. The output spectra reveal a dominant ultraviolet emission at 330 nm with a short-wavelength shoulder at 285 nm, which increases with the anode driving voltage. This work has explored the potential of AlN thin film as a cathodoluminescent material and provides a platform for investigating other ultrawide bandgap (UWBG) semiconductors. Furthermore, while using AlN thin film and a carbon nanotube array as electrodes, this ultraviolet cathodoluminescent device can be more compact and versatile than conventional lamps. It is anticipated to be useful in a variety of applications such as photochemistry, biotechnology and optoelectronics devices.
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spelling pubmed-100536852023-03-30 Aluminum Nitride Ultraviolet Light-Emitting Device Excited via Carbon Nanotube Field-Emission Electron Beam Yu, Yangcheng Han, Dong Wei, Haiyuan Tang, Ziying Luo, Lei Hong, Tianzeng Shen, Yan Zheng, Huying Wang, Yaqi Wang, Runchen Zhu, Hai Deng, Shaozhi Nanomaterials (Basel) Article With the progress of wide bandgap semiconductors, compact solid-state light-emitting devices for the ultraviolet wavelength region are of considerable technological interest as alternatives to conventional ultraviolet lamps in recent years. Here, the potential of aluminum nitride (AlN) as an ultraviolet luminescent material was studied. An ultraviolet light-emitting device, equipped with a carbon nanotube (CNT) array as the field-emission excitation source and AlN thin film as cathodoluminescent material, was fabricated. In operation, square high-voltage pulses with a 100 Hz repetition frequency and a 10% duty ratio were applied to the anode. The output spectra reveal a dominant ultraviolet emission at 330 nm with a short-wavelength shoulder at 285 nm, which increases with the anode driving voltage. This work has explored the potential of AlN thin film as a cathodoluminescent material and provides a platform for investigating other ultrawide bandgap (UWBG) semiconductors. Furthermore, while using AlN thin film and a carbon nanotube array as electrodes, this ultraviolet cathodoluminescent device can be more compact and versatile than conventional lamps. It is anticipated to be useful in a variety of applications such as photochemistry, biotechnology and optoelectronics devices. MDPI 2023-03-16 /pmc/articles/PMC10053685/ /pubmed/36985961 http://dx.doi.org/10.3390/nano13061067 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Yu, Yangcheng
Han, Dong
Wei, Haiyuan
Tang, Ziying
Luo, Lei
Hong, Tianzeng
Shen, Yan
Zheng, Huying
Wang, Yaqi
Wang, Runchen
Zhu, Hai
Deng, Shaozhi
Aluminum Nitride Ultraviolet Light-Emitting Device Excited via Carbon Nanotube Field-Emission Electron Beam
title Aluminum Nitride Ultraviolet Light-Emitting Device Excited via Carbon Nanotube Field-Emission Electron Beam
title_full Aluminum Nitride Ultraviolet Light-Emitting Device Excited via Carbon Nanotube Field-Emission Electron Beam
title_fullStr Aluminum Nitride Ultraviolet Light-Emitting Device Excited via Carbon Nanotube Field-Emission Electron Beam
title_full_unstemmed Aluminum Nitride Ultraviolet Light-Emitting Device Excited via Carbon Nanotube Field-Emission Electron Beam
title_short Aluminum Nitride Ultraviolet Light-Emitting Device Excited via Carbon Nanotube Field-Emission Electron Beam
title_sort aluminum nitride ultraviolet light-emitting device excited via carbon nanotube field-emission electron beam
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10053685/
https://www.ncbi.nlm.nih.gov/pubmed/36985961
http://dx.doi.org/10.3390/nano13061067
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