Construction of multiple interfaces and dielectric/magnetic heterostructures in electromagnetic wave absorbers with enhanced absorption performance:A review 被引量：12

导出

摘要 The construction of structures with multiple interfaces and dielectric/magnetic heterostructures enables the design of materials with unique physical and chemical properties,which has aroused intensive interest in scientific and technological fields.Especially,for electromagnetic(EM)wave absorption,enhanced interface polarization and improved impedence match with high Snoek's limitation could be achieved by multiple interfaces and dielectric/magnetic heterostructures,respectively,which are benificial to high-efficiency electromagnetic wave absorption(EWA).However,by far,the principles in the design or construction of structures with multiple interfaces and dielectric/magnetic heterostructures,and the relationships between those structures or heterostructures and their EWA performance have not been fully summarized and reviewed.This article aims to provide a timely review on the research progresses of high-efficency EM wave absorbers with multiple interfaces and dielectric/magnetic heterostructures,focusing on various promising EWA materials.Particularly,EM attenuation mechanisms in those structures with multiple interfaces and dielectric/magnetic heterostructures are discussed and generalized.Furthermore,the changllenges and future developments of EM wave absorbers based on those structures are proposed.

作者 Junye Cheng Huibin Zhang Yingfei Xiong Lingfeng Gao Bo Wen Hassan Raza Hao Wang Guangping Zheng Deqing Zhang Han Zhang

机构地区 Guangdong Provincial Key Laboratory of Micro/Nano Optomechatronics Engineering School of Materials Science and Engineering Department of Mechanical Engineering Collaborative Innovation Center for Optoelectronic Science and Technology

出处《Journal of Materiomics》 SCIE EI 2021年第6期1233-1263,共31页 无机材料学学报（英文）

基金 The authors are grateful for financial support from the National Key R&D Program of China(2019YFB2204500) the National Natural Science Foundation of China(Grants 51772160,51977009) Postdoctoral Research Foundation of China(2020SA0017).

关键词 EM wave absorbers EM attenuation mechanism Multiple interfaces construction Heterostructure construction

分类号 TB34 [一般工业技术—材料科学与工程]

引文网络
相关文献

参考文献11

1Biao Zhao,Xiaoqin Guo,Wanyu Zhao,Jiushuai Deng,Bingbing Fan,Gang Shao,Zhongyi Bai,Rui Zhang.Facile synthesis of yolk-shell Ni@void@SnO2（Ni3Sn2） ternary composites via galvanic replacement/Kirkendall effect and their enhanced microwave absorption properties[J].Nano Research,2017,10(1):331-343. 被引量：15
2Shanshan Wang,Yingchun Xu,Ruru Fu,Huanhuan Zhu,Qingze Jiao,Tongying Feng,Caihong Feng,Daxin Shi,Hansheng Li,Yun Zhao.Rational Construction of Hierarchically Porous Fe–Co/N-Doped Carbon/rGO Composites for Broadband Microwave Absorption[J].Nano-Micro Letters,2019,11(4):337-352. 被引量：16
3Mingtao Qiao,Xingfeng Lei,Yong Ma,Lidong Tian,Xiaowei He,Kehe Su,Qiuyu Zhang.Application of yolk-shell Fe3O4@N-doped carbon nanochains as highly effective microwave-absorption material[J].Nano Research,2018,11(3):1500-1519. 被引量：33
4Deqing Zhang,Tingting Liu,Junye Cheng,Qi Cao,Guangping Zheng,Shuang Liang,Hao Wang,MaoSheng Cao.Lightweight and High-Performance Microwave Absorber Based on 2D WS2-RGO Heterostructures[J].Nano-Micro Letters,2019,11(3):21-35. 被引量：14
5Yanlan Zhang,Xixi Wang,Maosheng Cao.Confinedly implanted NiFe2O4-rGO： Cluster tailoring and highly tunable electromagnetic properties for selective-frequency microwave absorption[J].Nano Research,2018,11(3):1426-1436. 被引量：41
6Guizhen wang,Zhe Gao,Gengping Wan,Shiwei Lin,Peng Yang,Yong Qin.High densities of magnetic nanoparticles supported on graphene fabricated by atomic layer deposition and their use as efficient synergistic microwave absorbers[J].Nano Research,2014,7(5):704-716. 被引量：37
7Shichao Zhao,Lili Yan,Xiaodong Tian,Yequn Liu,Chaoqiu Chen,Yunqin Li,Jiankang Zhang,Yan Song,Yong Qin.Flexible design of gradient multilayer nanofilms coated on carbon nanofibers by atomic layer deposition for enhanced microwave absorption performance[J].Nano Research,2018,11(1):530-541. 被引量：9
8Ya-Fei Pan,Guang-Sheng Wang,Lei Liu,Lin Guo,Shu-Hong Yu.Binary synergistic enhancement of dielectric and microwave absorption properties： A composite of arm symmetrical PbS dendrites and polyvinylidene fluoride[J].Nano Research,2017,10(1):284-294. 被引量：14
9Deqing Zhang,Yingfei Xiong,Junye Cheng,Jixing Chai,Tingting Liu,Xuewei Ba,Sana Ullah,Guangping Zheng,Ming Yan,Maosheng Cao.Synergetic dielectric loss and magnetic loss towards superior microwave absorption through hybridization of few-layer WS2 nanosheets with NiO nanoparticles[J].Science Bulletin,2020,65(2):138-146. 被引量：15
10Baiwen Deng,Zhen Xiang,Juan Xiong,Zhicheng Liu,Lunzhou Yu,Wei Lu.Sandwich-Like Fe&TiO2@C Nanocomposites Derived from MXene/Fe-MOFs Hybrids for Electromagnetic Absorption[J].Nano-Micro Letters,2020,12(4):121-136. 被引量：23

二级参考文献69

1Liu, J. W.; Che, R. C.; Chen, H. J.; Zhang, F.; Xia, F.; Wu, Q. S.; Wang, M. Microwave absorption enhancement of multifunctional composite microspheres with spinel Fe304 cores and anatase TiO2 shells. Small 2012, 8, 1214-1221.
2Sun, G. B.; Dong, B. X.; Cao, M. H.; Wei, B. Q.; Hu, C. W. Hierarchical dendrite-like magnetic materials of Fe304, γ-Fe203, and Fe with high performance of microwave absorption. Chem. Mater. 2011, 23, 1587 -1593.
3Song, N.-N.; Ke, Y.-J.; Yang, H.-T.; Zhang, H.; Zhang, X.-Q.; Shen, B.-G.; Cheng, Z.-H. Integrating giant microwave absorption with magnetic refrigeration in one multifunc- tional intermetallic compound of LaFetk6Sik4C0.2Hi.7. Sci. Rep. 2013, 3, 2291.
4Wang, C.; Han, X. J.; Xu, P.; Wang, J. Y.; Du, Y. C.; Wang, X. H.; Qin, W.; Zhang, T. Controlled synthesis of hierarchical nickel and morphology-dependent electromagnetic properties. J. Phys. Chem. C 2010, 114, 3196-3203.
5Cao, M.-S.; Song, W.-L.; Hou, Z.-L., Wen, B.; Yuan, J. The effects of temperature and frequency on the dielectric properties, electromagnetic interference shielding and microwave-absorption of short carbon fiber/silica composites. Carbon 2010, 48, 788-796.
6Che, R. C.; Peng, L.-M.; Duan, X. F., Chen, Q.; Liang, X. L. Microwave absorption enhancement and complex permittivity and permeability of Fe encapsulated within carbon nanotubes. Adw Mater. 2004, 16, 401-405.219-263.
7Liu, L. T.; Flores, M.; Newman, N. Microwave loss in the high-performance dielectric Ba(Znl/3Ta2/3)O3 at 4.2 K. Phys. Rev. Lett. 2012, 109, 257601.
8Xia, F., Liu, J. W., Gu, D., Zhao, P. F.; Zhang, J.; Che, R. C. Microwave absorption enhancement and electron microscopy characterization of BaTiO3 nano-torus. Nanoscale 2011, 3, 3860-3867.
9Guefin, F. Microwave chiral materials: A review of experimental studies and some results on composites with ferroelectric ceramic inclusions. Prog. Electromagn. Res. 1994, 9,.
10Umari, M. H.; Varadan, V. V.; Varadan, V. K. Rotation and dichroism associated with microwave propagation in chiral composite samples. Radio Sci. 1991, 26, 1327-1334.

共引文献173

1Deqing Zhang,Yingfei Xiong,Junye Cheng,Jixing Chai,Tingting Liu,Xuewei Ba,Sana Ullah,Guangping Zheng,Ming Yan,Maosheng Cao.Synergetic dielectric loss and magnetic loss towards superior microwave absorption through hybridization of few-layer WS2 nanosheets with NiO nanoparticles[J].Science Bulletin,2020,65(2):138-146. 被引量：15
2安锐,魏飞鸣,冯明,张润俊,高鹏程.碳基吸收剂本征介电属性挖掘研究[J].兵器材料科学与工程,2020,43(2):25-29.
3康越,原博,马天,楚增勇,张政军.基于石墨烯的电磁波损耗材料研究进展[J].无机材料学报,2018,33(12):1259-1273. 被引量：12
4黄威,魏世丞,梁义,王博,黄玉炜,王玉江,徐滨士.核壳结构复合吸波材料研究进展[J].工程科学学报,2019,41(5):547-556. 被引量：9
5Yunan Li,Yong Zhao,Xianyong Lu,Ying Zhu,Lei Jiang.Self-healing superhydrophobic polyvinylidene fluoride/ Fe3O4@polypyrrole fiber with core-sheath structures for superior microwave absorption[J].Nano Research,2016,9(7):2034-2045. 被引量：21
6Ya-Fei Pan,Guang-Sheng Wang,Lei Liu,Lin Guo,Shu-Hong Yu.Binary synergistic enhancement of dielectric and microwave absorption properties： A composite of arm symmetrical PbS dendrites and polyvinylidene fluoride[J].Nano Research,2017,10(1):284-294. 被引量：14
7Biao Zhao,Xiaoqin Guo,Wanyu Zhao,Jiushuai Deng,Bingbing Fan,Gang Shao,Zhongyi Bai,Rui Zhang.Facile synthesis of yolk-shell Ni@void@SnO2（Ni3Sn2） ternary composites via galvanic replacement/Kirkendall effect and their enhanced microwave absorption properties[J].Nano Research,2017,10(1):331-343. 被引量：15
8曹凤超,曾元松,刘宝胜,吴为.石墨烯基磁性吸波复合材料的研究进展[J].航空科学技术,2017,28(1):1-9. 被引量：5
9Lili Yan,Jia Liu,Shichao Zhao,Bin Zhang,Zhe Gao,Huibin Ge,Yao Chen,Maosheng Cao,Yong Qin.Coaxial multi-interface hollow Ni-AI203-ZnO nanowires tailored by atomic layer deposition for selective- frequency absorptions[J].Nano Research,2017,10(5):1595-1607. 被引量：14
10李亚洲,张大鹏,王静.有机物改性石墨烯及其吸波性能研究进展[J].安徽化工,2017,43(6):11-15.

同被引文献94

1Wentao Cao,Chang Ma,Shuo Tan,Mingguo Ma,Pengbo Wan,Feng Chen.Ultrathin and Flexible CNTs/MXene/Cellulose Nanofibrils Composite Paper for Electromagnetic Interference Shielding[J].Nano-Micro Letters,2019,11(4):276-292. 被引量：33
2Deqing Zhang,Yingfei Xiong,Junye Cheng,Jixing Chai,Tingting Liu,Xuewei Ba,Sana Ullah,Guangping Zheng,Ming Yan,Maosheng Cao.Synergetic dielectric loss and magnetic loss towards superior microwave absorption through hybridization of few-layer WS2 nanosheets with NiO nanoparticles[J].Science Bulletin,2020,65(2):138-146. 被引量：15
3Xinli YE,Zhaofeng CHEN,Sufen AI,Bin HOU,Junxiong ZHANG,Xiaohui LIANG,Qianbo ZHOU,Hezhou LIU,Sheng CUI.Porous SiC/melamine-derived carbon foam frameworks with excellent electromagnetic wave absorbing capacity[J].Journal of Advanced Ceramics,2019,8(4):479-488. 被引量：13
4陈庆军,王健,沈军,周贤良,华小珍,董应虎.铁钴基块体非晶合金的热膨胀特性和热导率[J].稀有金属材料与工程,2016,45(3):765-770. 被引量：4
5Shichao Zhao,Lili Yan,Xiaodong Tian,Yequn Liu,Chaoqiu Chen,Yunqin Li,Jiankang Zhang,Yan Song,Yong Qin.Flexible design of gradient multilayer nanofilms coated on carbon nanofibers by atomic layer deposition for enhanced microwave absorption performance[J].Nano Research,2018,11(1):530-541. 被引量：9
6Yanlan Zhang,Xixi Wang,Maosheng Cao.Confinedly implanted NiFe2O4-rGO： Cluster tailoring and highly tunable electromagnetic properties for selective-frequency microwave absorption[J].Nano Research,2018,11(3):1426-1436. 被引量：41
7郑鹏轩,张婕妤,田晓菡,彭锐晖,李廷希.聚苯胺复合吸波材料的研究进展[J].化学推进剂与高分子材料,2018,16(3):25-28. 被引量：4
8王建江,蔡旭东,温晋华,许宝才.FeSiAl软磁合金空心微珠的微观结构控制及其低频吸波性能[J].稀有金属材料与工程,2018,47(10):3072-3079. 被引量：6
9刘顺华,郭辉进.电磁屏蔽与吸波材料[J].功能材料与器件学报,2002,8(3):213-217. 被引量：103
10邹海仲,万炜涛,杨名华,陈田安,王红玉.复合粉体制备导热吸波材料及其表征[J].高分子材料科学与工程,2019,35(2):136-140. 被引量：9

引证文献12

1Jing Yan,Ying Huang,Xiangyong Zhang,Xin Gong,Chen Chen,Guangdi Nie,Xudong Liu,Panbo Liu.MoS_(2)-Decorated/Integrated Carbon Fiber:Phase Engineering Well-Regulated Microwave Absorber[J].Nano-Micro Letters,2021,13(7):173-187. 被引量：10
2Hui-Ya Wang,Xiao-Bo Sun,Shu-Hao Yang,Pei-Yan Zhao,Xiao-Juan Zhang,Guang-Sheng Wang,Yi Huang.3D Ultralight Hollow NiCo Compound@MXene Composites for Tunable and High-E cient Microwave Absorption[J].Nano-Micro Letters,2021,13(12):322-336. 被引量：23
3Junye Cheng,Chuanbing Li,Yingfei Xiong,Huibin Zhang,Hassan Raza,Sana Ullah,Jinyi Wu,Guangping Zheng,Qi Cao,Deqing Zhang,Qingbin Zheng,Renchao Che.Recent Advances in Design Strategies and Multifunctionality of Flexible Electromagnetic Interference Shielding Materials[J].Nano-Micro Letters,2022,14(5):122-152. 被引量：19
4Xiaogu Huang,Jiawen Wei,Yunke Zhang,BinBin Qian,Qi Jia,Jun Liu,Xiaojia Zhao,Gaofeng Shao.Ultralight Magnetic and Dielectric Aerogels Achieved by Metal-Organic Framework Initiated Gelation of Graphene Oxide for Enhanced Microwave Absorption[J].Nano-Micro Letters,2022,14(7):16-31. 被引量：13
5叶喜葱,杨超,欧阳宾,高琦,吴海华,何恩义,叶永盛.石墨烯增强FeSiAl-MoS_(2)/PLA复合材料吸波性能[J].复合材料学报,2023,40(2):911-928. 被引量：3
6杨越,朱曜峰.核壳结构铁/碳化铁@碳@聚苯胺多相复合吸波材料的制备及吸波性能[J].浙江理工大学学报（自然科学版）,2023,49(5):550-559.
7Junye Cheng,Yongheng Jin,Jinghan Zhao,Qi Jing,Bailong Gu,Jialiang Wei,Shenghui Yi,Mingming Li,Wanli Nie,Qinghua Qin,Deqing Zhang,Guangping Zheng,Renchao Che.From VIB‑to VB‑Group Transition Metal Disulfides:Structure Engineering Modulation for Superior Electromagnetic Wave Absorption[J].Nano-Micro Letters,2024,16(2):218-257. 被引量：2
8李昀桓,李奇,金魁.飞行器表面等离子体融合分析法[J].南京理工大学学报,2023,47(6):851-858.
9苏蒸棠,陈飞,周致君,陈刚,蔡苇,符春林.导热吸波一体化材料的研究进展[J].复合材料学报,2024,41(5):2308-2320. 被引量：2
10廖怡君,马艺,冀连泽,戎华威,李逸兴,张雪峰.高熵合金纳米颗粒研究进展[J].中国科学：技术科学,2024,54(7):1211-1245.

二级引证文献67

1Yue Wu,Yue Zhao,Ming Zhou,Shujuan Tan,Reza Peymanfar,Bagher Aslibeiki,Guangbin Ji.Ultrabroad Microwave Absorption Ability and Infrared Stealth Property of Nano-Micro CuS@rGO Lightweight Aerogels[J].Nano-Micro Letters,2022,14(11):1-17. 被引量：22
2Yun Qiu,Haibo Yang,Fanfan Hu,Ying Lin.Two-dimensional CoNi@mesoporous carbon composite with heterogeneous structure toward broadband microwave absorber[J].Nano Research,2022,15(9):7769-7777. 被引量：2
3蒋云.电磁屏蔽织物基二维材料的研究进展[J].印染,2023,49(1):70-73. 被引量：1
4叶喜葱,杨超,欧阳宾,高琦,吴海华,何恩义,叶永盛.石墨烯增强FeSiAl-MoS_(2)/PLA复合材料吸波性能[J].复合材料学报,2023,40(2):911-928. 被引量：3
5叶喜葱,杨鹏,杨超,高琦,吴海华.BaFe_(12)O_(19)/PLA复合材料的制备及性能研究[J].三峡大学学报（自然科学版）,2023,45(3):88-95.
6刘婉婉,龙啸云,纪月,孙启龙,张成蛟.CF/Fe_(3)O_(4)增强环氧树脂吸波复合材料的性能研究[J].棉纺织技术,2023,51(5):25-30. 被引量：1
7陈思魁,郭荣辉.电磁屏蔽织物的研究进展[J].纺织科学与工程学报,2023,40(2):88-94. 被引量：3
8牛翔宇,凌新龙.电磁屏蔽材料的研究进展[J].纺织科学与工程学报,2023,40(2):109-118. 被引量：3
9曹雪芳,药栋,贺永亮,贾雪菲.MOFs衍生的碳复合吸波材料的研究进展[J].化工新型材料,2023,51(5):13-18. 被引量：1
10李姝颖,姜玉莹,戴会娟,刘亮亮,顾长青,李茁.面向5G毫米波的绿色多性能电磁屏蔽材料[J].复合材料学报,2023,40(5):2688-2698. 被引量：2

1Jiangao Li,Hanlin Ou,Jing Li,Xiaodi Yang,Congwu Ge,Dan Ding,Xike Gao.Largeπ-extended donor-acceptor polymers for highly efficient in vivo near-infrared photoacoustic imaging and photothermal tumor therapy[J].Science China Chemistry,2021,64(12):2180-2192. 被引量：1
2李东华.韩国国际竞争力影响因素分析[J].亚太经济,1997(5):13-18.
3Ning Sun,Wen Li,Shuang Wei,Hui Gao,Wei Wang,Shougang Chen.Facile synthesis of lightweight 3D hierarchical Ni Co_(2)O_(4) nanoflowers/reduced graphene oxide composite foams with excellent electromagnetic wave absorption performance[J].Journal of Materials Science & Technology,2021(32):187-199. 被引量：1
4Joanna Burger,Amanda Dey,Grace Dillingham,Stephanie Feigin,Kelly Ng,Larry Niles.Perceptions of Beach Stewards and Information Needs for Shorebird Stopover Sites Vary as a Function of Visitor Interests: Improving Stewardship Programs in Coastal Landscapes[J].Natural Science,2021,13(12):537-557.

Journal of Materiomics

2021年第6期

浏览历史

内容加载中请稍等...