A flexible microwave shield with tunable frequency-transmission and electromagnetic compatibility
Wireless techniques have improved life quality for many. However, the drawbacks like instable signal and high loss in air of electromagnetic interference hinder its further development. One solution is to develop a smart material or device, which can selectively receive a specific frequency (fs) of...
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sg-ntu-dr.10356-1502112021-06-04T05:44:43Z A flexible microwave shield with tunable frequency-transmission and electromagnetic compatibility Lv, Hualiang Yang, Zhihong Ong, Samuel Jun Hoong Wei, Chao Liao, Hanbin Xi, Shibo Du, Yonghua Ji, Guangbin Xu, Jason Zhichuan School of Materials Science and Engineering Energy Research Institute @ NTU (ERI@N) CREATE Engineering::Materials Electromagnetic Compatibility Flexible Wireless techniques have improved life quality for many. However, the drawbacks like instable signal and high loss in air of electromagnetic interference hinder its further development. One solution is to develop a smart material or device, which can selectively receive a specific frequency (fs) of electromagnetic wave with less loss, and simultaneously show effective shielding against unwanted waves (frequency is denoted as fp). A bottleneck has been reached, such that using materials alone is unable to achieve the above due to the limitation of the intrinsic physical properties of materials. Here, a strategy combining the material structure design with a voltage control is proposed to overcome the limitation of materials toward the aforementioned task. The efforts are focused on exploring a suitable electrically tunable material with a sensitive response to an external voltage and the flexibility to be engineered to the needed macrostructure. As a result, the fs region can be fine-tuned to 8–8.4, 8–9.3, and 8–10.3 GHz. Ministry of Education (MOE) Nanyang Technological University National Research Foundation (NRF) Financial support was extended from the National Natural Science Foundation of China (No.: 11575085), the Aeronautics Science Foundation of China (No.: 2017ZF52066), the Qing Lan Project, Six Talent Peaks Project in Jiangsu Province (No. XCL-035), Jiangsu 333 Talent Project, and the Open Research Fund of Jiangsu Provincial Key Laboratory for Nanotechnology of Nanjing University. This work was also partially supported by the Singapore Ministry of Education Tier 2 Grant (MOE2017-T2-1-009), Tier 1 Grant (RG3/18 (S)), and the Singapore National Research Foundation under its Campus for Research Excellence And Technological Enterprise (CREATE) program. The authors thank the Facility for Analysis, Characterization, Testing, and Simulation (FACTS) at Nanyang Technological University and appreciate the XAFCA beamline of the Singapore Synchrotron Light Source for XAFS characterization. 2021-06-04T05:44:43Z 2021-06-04T05:44:43Z 2019 Journal Article Lv, H., Yang, Z., Ong, S. J. H., Wei, C., Liao, H., Xi, S., Du, Y., Ji, G. & Xu, J. Z. (2019). A flexible microwave shield with tunable frequency-transmission and electromagnetic compatibility. Advanced Functional Materials, 29(14), 1900163-. https://dx.doi.org/10.1002/adfm.201900163 1616-301X 0000-0001-7746-5920 https://hdl.handle.net/10356/150211 10.1002/adfm.201900163 2-s2.0-85061615875 14 29 1900163 en MOE2017-T2-1-009 RG3/18 (S) Advanced Functional Materials © 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim. All rights reserved. |
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Engineering::Materials Electromagnetic Compatibility Flexible Lv, Hualiang Yang, Zhihong Ong, Samuel Jun Hoong Wei, Chao Liao, Hanbin Xi, Shibo Du, Yonghua Ji, Guangbin Xu, Jason Zhichuan A flexible microwave shield with tunable frequency-transmission and electromagnetic compatibility |
| description |
Wireless techniques have improved life quality for many. However, the drawbacks like instable signal and high loss in air of electromagnetic interference hinder its further development. One solution is to develop a smart material or device, which can selectively receive a specific frequency (fs) of electromagnetic wave with less loss, and simultaneously show effective shielding against unwanted waves (frequency is denoted as fp). A bottleneck has been reached, such that using materials alone is unable to achieve the above due to the limitation of the intrinsic physical properties of materials. Here, a strategy combining the material structure design with a voltage control is proposed to overcome the limitation of materials toward the aforementioned task. The efforts are focused on exploring a suitable electrically tunable material with a sensitive response to an external voltage and the flexibility to be engineered to the needed macrostructure. As a result, the fs region can be fine-tuned to 8–8.4, 8–9.3, and 8–10.3 GHz. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Lv, Hualiang Yang, Zhihong Ong, Samuel Jun Hoong Wei, Chao Liao, Hanbin Xi, Shibo Du, Yonghua Ji, Guangbin Xu, Jason Zhichuan |
| format |
Article |
| author |
Lv, Hualiang Yang, Zhihong Ong, Samuel Jun Hoong Wei, Chao Liao, Hanbin Xi, Shibo Du, Yonghua Ji, Guangbin Xu, Jason Zhichuan |
| author_sort |
Lv, Hualiang |
| title |
A flexible microwave shield with tunable frequency-transmission and electromagnetic compatibility |
| title_short |
A flexible microwave shield with tunable frequency-transmission and electromagnetic compatibility |
| title_full |
A flexible microwave shield with tunable frequency-transmission and electromagnetic compatibility |
| title_fullStr |
A flexible microwave shield with tunable frequency-transmission and electromagnetic compatibility |
| title_full_unstemmed |
A flexible microwave shield with tunable frequency-transmission and electromagnetic compatibility |
| title_sort |
flexible microwave shield with tunable frequency-transmission and electromagnetic compatibility |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/150211 |
| _version_ |
1702431247058337792 |