Multifunctional III-nitride optoelectronic system on a tiny chip

Multi-quantum well (MQW) diodes exhibit simultaneous emission and detection, allowing them to serve as multifunctional devices, including light emitters, receivers, energy transmitters, and information transmitters. Leveraging this capability, we designed a Multifunctional Energy Transfer Informatio...

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Main Authors:	Binju Wang, Jianwei Fu, Kang Fu, Ziqi Ye, Wenxuan Wu, Xumin Gao, Jiabin Yan, Yongjin Wang
Format:	Article
Language:	English
Published:	AIP Publishing LLC 2024-12-01
Series:	AIP Advances
Online Access:	http://dx.doi.org/10.1063/5.0234233
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author	Binju Wang Jianwei Fu Kang Fu Ziqi Ye Wenxuan Wu Xumin Gao Jiabin Yan Yongjin Wang
author_facet	Binju Wang Jianwei Fu Kang Fu Ziqi Ye Wenxuan Wu Xumin Gao Jiabin Yan Yongjin Wang
author_sort	Binju Wang
collection	DOAJ
description	Multi-quantum well (MQW) diodes exhibit simultaneous emission and detection, allowing them to serve as multifunctional devices, including light emitters, receivers, energy transmitters, and information transmitters. Leveraging this capability, we designed a Multifunctional Energy Transfer Information System (METIS) that integrates contactless control, energy harvesting, and information transfer. At the core of this system, the multifunctional energy communication chip operates effectively across a broad range of extreme temperatures and in various solution environments. As the ambient temperature varies from −60 to 120 °C, the peak emission wavelength shifts from 465 to 476 nm, and even with further temperature changes from −70 to 150 °C, the communication function remains stable. Encapsulated for durability, METIS functions reliably in extreme conditions such as ice, water, salt solutions, and other light-transmitting fluids without needing external circuitry. Additionally, we demonstrate passive control of analog switches via MQW diodes. The MQW diodes also enable contactless energy and optical information transfer, ensuring stable and controllable information reconstruction at the receiving end. This approach offers an innovative solution for energy and information transmission in extreme environments.
format	Article
id	doaj-art-2fcea24a7e8b449f9e70dc47d0052634
institution	Kabale University
issn	2158-3226
language	English
publishDate	2024-12-01
publisher	AIP Publishing LLC
record_format	Article
series	AIP Advances
spelling	doaj-art-2fcea24a7e8b449f9e70dc47d00526342025-01-02T17:23:44ZengAIP Publishing LLCAIP Advances2158-32262024-12-011412125204125204-810.1063/5.0234233Multifunctional III-nitride optoelectronic system on a tiny chipBinju Wang0Jianwei Fu1Kang Fu2Ziqi Ye3Wenxuan Wu4Xumin Gao5Jiabin Yan6Yongjin Wang7GaN Optoelectronic Integration International Cooperation Joint Laboratory of Jiangsu Province, Nanjing University of Posts and Telecommunications, Nanjing 210003, ChinaGaN Optoelectronic Integration International Cooperation Joint Laboratory of Jiangsu Province, Nanjing University of Posts and Telecommunications, Nanjing 210003, ChinaGaN Optoelectronic Integration International Cooperation Joint Laboratory of Jiangsu Province, Nanjing University of Posts and Telecommunications, Nanjing 210003, ChinaGaN Optoelectronic Integration International Cooperation Joint Laboratory of Jiangsu Province, Nanjing University of Posts and Telecommunications, Nanjing 210003, ChinaGaN Optoelectronic Integration International Cooperation Joint Laboratory of Jiangsu Province, Nanjing University of Posts and Telecommunications, Nanjing 210003, ChinaGaN Optoelectronic Integration International Cooperation Joint Laboratory of Jiangsu Province, Nanjing University of Posts and Telecommunications, Nanjing 210003, ChinaGaN Optoelectronic Integration International Cooperation Joint Laboratory of Jiangsu Province, Nanjing University of Posts and Telecommunications, Nanjing 210003, ChinaGaN Optoelectronic Integration International Cooperation Joint Laboratory of Jiangsu Province, Nanjing University of Posts and Telecommunications, Nanjing 210003, ChinaMulti-quantum well (MQW) diodes exhibit simultaneous emission and detection, allowing them to serve as multifunctional devices, including light emitters, receivers, energy transmitters, and information transmitters. Leveraging this capability, we designed a Multifunctional Energy Transfer Information System (METIS) that integrates contactless control, energy harvesting, and information transfer. At the core of this system, the multifunctional energy communication chip operates effectively across a broad range of extreme temperatures and in various solution environments. As the ambient temperature varies from −60 to 120 °C, the peak emission wavelength shifts from 465 to 476 nm, and even with further temperature changes from −70 to 150 °C, the communication function remains stable. Encapsulated for durability, METIS functions reliably in extreme conditions such as ice, water, salt solutions, and other light-transmitting fluids without needing external circuitry. Additionally, we demonstrate passive control of analog switches via MQW diodes. The MQW diodes also enable contactless energy and optical information transfer, ensuring stable and controllable information reconstruction at the receiving end. This approach offers an innovative solution for energy and information transmission in extreme environments.http://dx.doi.org/10.1063/5.0234233
spellingShingle	Binju Wang Jianwei Fu Kang Fu Ziqi Ye Wenxuan Wu Xumin Gao Jiabin Yan Yongjin Wang Multifunctional III-nitride optoelectronic system on a tiny chip AIP Advances
title	Multifunctional III-nitride optoelectronic system on a tiny chip
title_full	Multifunctional III-nitride optoelectronic system on a tiny chip
title_fullStr	Multifunctional III-nitride optoelectronic system on a tiny chip
title_full_unstemmed	Multifunctional III-nitride optoelectronic system on a tiny chip
title_short	Multifunctional III-nitride optoelectronic system on a tiny chip
title_sort	multifunctional iii nitride optoelectronic system on a tiny chip
url	http://dx.doi.org/10.1063/5.0234233
work_keys_str_mv	AT binjuwang multifunctionaliiinitrideoptoelectronicsystemonatinychip AT jianweifu multifunctionaliiinitrideoptoelectronicsystemonatinychip AT kangfu multifunctionaliiinitrideoptoelectronicsystemonatinychip AT ziqiye multifunctionaliiinitrideoptoelectronicsystemonatinychip AT wenxuanwu multifunctionaliiinitrideoptoelectronicsystemonatinychip AT xumingao multifunctionaliiinitrideoptoelectronicsystemonatinychip AT jiabinyan multifunctionaliiinitrideoptoelectronicsystemonatinychip AT yongjinwang multifunctionaliiinitrideoptoelectronicsystemonatinychip

Multifunctional III-nitride optoelectronic system on a tiny chip

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