Recent advances in metamaterials for simultaneous wireless information and power transmission

Recent advances in metamaterials for simultaneous wireless information and power transmission

In the last two decades, metamaterials and metasurfaces have introduced many new electromagnetic (EM) theory concepts and inspired contemporary design methodologies for EM devices and systems. This review focuses on the recent advances in metamaterials (MMs) for simultaneous wireless information and...

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Main Authors: Tian Shuncheng, Zhang Xuanming, Wang Xin, Han Jiaqi, Li Long
Format: Article
Language:English
Published: De Gruyter 2022-01-01
Series:Nanophotonics
Subjects:
digital coding metasurface
metamaterials
metasurfaces
simultaneous wireless information and power transmission
wireless energy harvesting
wireless power transmission
Online Access:https://doi.org/10.1515/nanoph-2021-0657
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author Tian Shuncheng
Zhang Xuanming
Wang Xin
Han Jiaqi
Li Long
author_facet Tian Shuncheng
Zhang Xuanming
Wang Xin
Han Jiaqi
Li Long
author_sort Tian Shuncheng
collection DOAJ
description In the last two decades, metamaterials and metasurfaces have introduced many new electromagnetic (EM) theory concepts and inspired contemporary design methodologies for EM devices and systems. This review focuses on the recent advances in metamaterials (MMs) for simultaneous wireless information and power transmission (SWIPT) technology. In the increasingly complex EM world, digital coding and programmable metamaterials and metasurfaces have enabled commercial opportunities with a broad impact on wireless communications and wireless power transfer. In this review, we first introduce the potential technologies for SWIPT. Then, it is followed by a comprehensive survey of various research efforts on metamaterial-based wireless information transmission (WIT), wireless power transmission (WPT), wireless energy harvesting (WEH) and SWIPT technologies. Finally, it is concluded with perspectives on the rapidly growing SWIPT requirement for 6G. This review is expected to provide researchers with insights into the trend and applications of metamaterial-based SWIPT technologies to stimulate future research in this emerging domain.
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spelling doaj.art-2b6d7918f1c94f1aaa851edc2f6ce19f2023-01-19T12:46:59ZengDe GruyterNanophotonics2192-86142022-01-011191697172310.1515/nanoph-2021-0657Recent advances in metamaterials for simultaneous wireless information and power transmissionTian Shuncheng0Zhang Xuanming1Wang Xin2Han Jiaqi3Li Long4Xidian University, Xi’an710071, ChinaXi’an University of Posts & Telecommunications, Xi’an710121, ChinaXidian University, Xi’an710071, ChinaXidian University, Xi’an710071, ChinaXidian University, Xi’an710071, ChinaIn the last two decades, metamaterials and metasurfaces have introduced many new electromagnetic (EM) theory concepts and inspired contemporary design methodologies for EM devices and systems. This review focuses on the recent advances in metamaterials (MMs) for simultaneous wireless information and power transmission (SWIPT) technology. In the increasingly complex EM world, digital coding and programmable metamaterials and metasurfaces have enabled commercial opportunities with a broad impact on wireless communications and wireless power transfer. In this review, we first introduce the potential technologies for SWIPT. Then, it is followed by a comprehensive survey of various research efforts on metamaterial-based wireless information transmission (WIT), wireless power transmission (WPT), wireless energy harvesting (WEH) and SWIPT technologies. Finally, it is concluded with perspectives on the rapidly growing SWIPT requirement for 6G. This review is expected to provide researchers with insights into the trend and applications of metamaterial-based SWIPT technologies to stimulate future research in this emerging domain.https://doi.org/10.1515/nanoph-2021-0657digital coding metasurfacemetamaterialsmetasurfacessimultaneous wireless information and power transmissionwireless energy harvestingwireless power transmission
spellingShingle Tian Shuncheng
Zhang Xuanming
Wang Xin
Han Jiaqi
Li Long
Recent advances in metamaterials for simultaneous wireless information and power transmission
Nanophotonics
digital coding metasurface
metamaterials
metasurfaces
simultaneous wireless information and power transmission
wireless energy harvesting
wireless power transmission
title Recent advances in metamaterials for simultaneous wireless information and power transmission
title_full Recent advances in metamaterials for simultaneous wireless information and power transmission
title_fullStr Recent advances in metamaterials for simultaneous wireless information and power transmission
title_full_unstemmed Recent advances in metamaterials for simultaneous wireless information and power transmission
title_short Recent advances in metamaterials for simultaneous wireless information and power transmission
title_sort recent advances in metamaterials for simultaneous wireless information and power transmission
topic digital coding metasurface
metamaterials
metasurfaces
simultaneous wireless information and power transmission
wireless energy harvesting
wireless power transmission
url https://doi.org/10.1515/nanoph-2021-0657
work_keys_str_mv AT tianshuncheng recentadvancesinmetamaterialsforsimultaneouswirelessinformationandpowertransmission
AT zhangxuanming recentadvancesinmetamaterialsforsimultaneouswirelessinformationandpowertransmission
AT wangxin recentadvancesinmetamaterialsforsimultaneouswirelessinformationandpowertransmission
AT hanjiaqi recentadvancesinmetamaterialsforsimultaneouswirelessinformationandpowertransmission
AT lilong recentadvancesinmetamaterialsforsimultaneouswirelessinformationandpowertransmission

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