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Science and Technology of Advanced Materials Volume 19, 2018 - Issue 1
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Engineering and Structural Materials

Flexible ultrathin metamaterial absorber for wide frequency band, based on conductive fibers

Young Ju KimDepartment of Physics and RINS, Hanyang University, Seoul, KoreaView further author information
,
Ji Sub HwangDepartment of Physics and RINS, Hanyang University, Seoul, KoreaView further author information
,
Bui Xuan KhuyenDepartment of Physics and RINS, Hanyang University, Seoul, KoreaView further author information
,
Bui Son TungDepartment of Physics and RINS, Hanyang University, Seoul, KoreaView further author information
,
Ki Won KimDepartment of Display Information, Sunmoon University, Asan, KoreaView further author information
,
Joo Yull RheeDepartment of Physics, Sungkyunkwan University, Suwon, KoreaView further author information
,
Liang-Yao ChenDepartment of Physics, Fudan University, Shanghai, ChinaView further author information
&
YoungPak LeeDepartment of Physics and RINS, Hanyang University, Seoul, KoreaCorrespondence[email protected]
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Pages 711-717 | Received 23 May 2018, Accepted 19 Sep 2018, Published online: 15 Oct 2018

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Adnan Yousaf, Abdul Wakeel, Zeeshan Zahid, Mudassir Murtaza, Adil Masood Siddiqui & Muhammad Imran. (2022) A highly efficient deca-band metasurface absorber for diverse microwave applications. Waves in Random and Complex Media 0:0, pages 1-14.
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Do Thuy Chi, Bui Xuan Khuyen, Bui Son Tung, Vu Dinh Lam, Liang Yao Chen & YoungPak Lee. (2020) Progresses in metamaterials for advanced low-frequency perfect absorbers: a brief review. Journal of Electromagnetic Waves and Applications 34:17, pages 2251-2265.
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J. Y. Rhee, Y. J. Kim, C. Yi, J. S. Hwang & Y. P. Lee. (2020) Recent progress in perfect absorbers by utilizing metamaterials. Journal of Electromagnetic Waves and Applications 34:10, pages 1338-1371.
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Articles from other publishers (19)

Haiyu Zheng, Liangyao Chen & YoungPak Lee. (2023) High-Performance and Flexible Metamaterial Wave Absorbers with Specific Bandwidths for the Microwave Device. Crystals 13:6, pages 868.
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Yalan Yang, Chaoyun Song, Rui Pei, Jianping Wang, Zhe Liu, Youran Zhang & Jinzhu Shen. (2023) Design, characterization and fabrication of a flexible broadband metamaterial absorber based on textile. Additive Manufacturing 69, pages 103537.
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Kiwook Han, Hyeon Bo Shim & Jae Won Hahn. (2022) Optically Transparent Single‐Layer Frequency‐Selective Surface Absorber for Dual‐Band Millimeter‐Wave Absorption and Low‐Infrared Emissivity. Advanced Photonics Research 4:4.
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Huajiang Peng, Xiaoqing Yang, Piqiang Su, Jun Wang, Dezhen Gu, Guangming Jiang & Xin Zhou. (2022) A broadband metamaterial absorber with flexible low infrared radiation. Journal of Physics D: Applied Physics 55:42, pages 425102.
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Yalan Yang, Jianping Wang, Chaoyun Song, Rui Pei, Jayakrishnan M. Purushothama & Youran Zhang. (2022) Electromagnetic shielding using flexible embroidery metamaterial absorbers: Design, analysis and experiments. Materials & Design 222, pages 111079.
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H. Victor Du John, Tony Jose & Shanthini Pandiaraj. (2022) Design of 5.8GHz Single Band Metamaterial Unit Cell Absorber for Wi-Fi Applications. Design of 5.8GHz Single Band Metamaterial Unit Cell Absorber for Wi-Fi Applications.
Haiyu Zheng, Liangyao Chen & Young-Pak Lee. (2022) Flexible Metamaterial Absorber with Tailored Bandwidth and High Absorption Performance. Crystals 12:2, pages 182.
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Fubin Liu, Cuiping Li, Geoffrey I.N. Waterhouse, Xiaohui Jiang, Zhiming Zhang & Liangmin Yu. (2021) Lightweight PVDF/γ-Fe2O3/PANI foam for efficient broadband microwave absorption in the K and Ka bands. Journal of Alloys and Compounds 876, pages 159983.
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S N Khonina, M A Butt & N L Kazanskiy. (2021) Numerical investigation of metasurface narrowband perfect absorber and a plasmonic sensor for a near-infrared wavelength range. Journal of Optics 23:6, pages 065102.
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Tongguang Zhu, Yong Sun, Yajing Wang, Hongna Xing, Yan Zong, Zhaoyu Ren, Haiping Yu & Xinliang Zheng. (2020) Controllable synthesis of MOF-derived FexNi1−x@C composites with dielectric–magnetic synergy toward optimized impedance matching and outstanding microwave absorption. Journal of Materials Science 56:1, pages 592-606.
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Shicheng Fan & Yaoliang Song. (2020) Ultra-Wideband Flexible Absorber in Microwave Frequency Band. Materials 13:21, pages 4883.
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Yasir Saifullah, Guo-Min Yang, Youngpak Lee & Feng Xu. (2020) Multifunctional Programmable Metasurface for Flexible Control of EM Wave Scattering and Absorption. Multifunctional Programmable Metasurface for Flexible Control of EM Wave Scattering and Absorption.
Bui Son Tung, Bui Xuan Khuyen, Pham The Linh, Nguyen Thanh Tung, Do Hung Manh & Vu Dinh Lam. (2020) Polarization-insensitive electromagnetically-induced transparency in planar metamaterial based on coupling of ring and zigzag spiral resonators. Modern Physics Letters B 34:10, pages 2050093.
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Guangsheng Deng, Kun Lv, Hanxiao Sun, Yuan HongXiaoying ZhangZhiping Yin & Jun Yang. (2020) Wideband absorber based on conductive ink frequency selective surface with polarization insensitivity and wide-incident-angle stability. Nanomaterials and Nanotechnology 10, pages 184798042093571.
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Juhua Luo, Kang Zhang, Mingliang Cheng, Mingmin Gu & Xinkai Sun. (2020) MoS2 spheres decorated on hollow porous ZnO microspheres with strong wideband microwave absorption. Chemical Engineering Journal 380, pages 122625.
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Przemyslaw Lopato & Michal Herbko. (2019) Evaluation of Selected Metasurfaces’ Sensitivity to Planar Geometry Distortions. Applied Sciences 10:1, pages 261.
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Tran Van Huynh, Bui Son Tung, Bui Xuan Khuyen, Nguyen Thanh Tung & Vu Dinh Lam. (2019) Electrically tunable graphene-based metamaterials: A brief review. Modern Physics Letters B 33:33, pages 1950404.
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Jie Chen, Shuai Huang, Jia Cao, Qun Wu & Xiaobin Tang. (2019) All polarization gain enhancing lens Based on Meta-surface. All polarization gain enhancing lens Based on Meta-surface.
Yalan Yang, Jianping Wang, Chaoyun Song, Rui Pei, M. P. Jayakrishnan & Youran Zhang. (2022) Electromagnetic Shielding Using Flexible Embroidery Metamaterial Absorbers: Design, Analysis and Experiments. SSRN Electronic Journal.
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