ⅢA-ⅡB multicomponent perovskite rare earth ferrites with promising electromagnetic wave absorption properties

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摘要 Perovskite-type rare-earth ferrites(REFeO_(3))are promising materials for absorbing electromagnetic(EM)wave pollution.However,insufficient dielectric loss and poor impedance matching are key factors that limit the broader implementation of REFeO_(3).Herein,a series of multicomponent perovskite-type ferrites with strong EM wave absorption capabilities was prepared.Through the synergistic effect of chemical constitution regulation and entropy regulation,optimization of the dielectric loss and impedance matching is achieved by strengthening the structural defect mechanism,thus further adjusting the EM wave absorption performance.Compared with(LaGdSmNdBa)FeO_(3)(HE-1)and(LaGdPrSmNdBa)FeO_(3)(HE-2),(LaGdBa)FeO_(3)(ME-1)and(LaGdSmBa)FeO_(3)(ME-2)exhibit favorable performance,with optimal minimum reflection loss(RL_(min))of-56.35 dB(at 11.12 GHz)and-63.25 dB(at 7.22 GHz)and effective absorption bandwidth(EAB)of 4.46 and 4.72 GHz,respectively.This multicomponent design provides a new strategy for the development of EM wave absorption materials.

作者 Yanyan He Tao Chen Yanyu Pan Minzhong Huang Kaixian Wang Liyan Xue Yazhu Li Fengzhi Tan Fan Yang Tongkuan Xu Heng Chen

机构地区 School of Light Industry and Chemical Engineering Xiamen Institute of Rare EarthMaterials Fujian Institute of Research on the Structure of Matter Fujian Science&Technology Innovation Laboratory for Optoelectronic Information of China Xiamen Key-Laboratoryof Rare Earth Photoelectric Functional Materials Key Laboratory of Rare Earths

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2024年第6期1118-1127,I0005,共11页 稀土学报（英文版）

基金 Project supported by the National Key Research and Development Program of China(2022YFB3504302) the Young Elite Scientists Sponsorship Program by CAST(YESS20210336) the Fujian Provincial Natural Fund Project(2021J05101) the XIREM Autonomously Deployment Project(2023GG03)。

关键词 Rare earths Multicomponent design Rare earth ferrites Entropy regulation Electromagnetic wave absorption

分类号 TB34 [一般工业技术—材料科学与工程]

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参考文献10

1Chen Chen,Jiabin Xi,Erzhen Zhou,Li Peng,Zichen Chen,Chao Gao.Porous Graphene Microflowers for High-Performance Microwave Absorption[J].Nano-Micro Letters,2018,10(2):81-91. 被引量：26
2Xin Wen,Cui Li,Hui Liu,Guohua Fan,Yanan Tang,Chuncheng Hao,Lili Ma,Pingan Song.Green carbonization of waste coffee grounds into porous C/Fe hybrids for broadband and high-efficiency microwave absorption[J].Journal of Materials Science & Technology,2024,170(3):1-10. 被引量：1
3Jiabin MA,Biao ZHAO,Huimin XIANG,Fu-Zhi DAI,Yi LIU,Rui ZHANG,Yanchun ZHOU.High-entropy spinel ferrites MFe_(2)O_(4)(M=Mg,Mn,Fe,Co,Ni,Cu,Zn)with tunable electromagnetic properties and strong microwave absorption[J].Journal of Advanced Ceramics,2022,11(5):754-768. 被引量：5
4Yuping Duan,Huifang Pang,Xin Wen,Xuefeng Zhang,Tongmin Wang.Microwave absorption performance of FeCoNiAlCr_(0.9)alloy powders by adjusting the amount of process control agent[J].Journal of Materials Science & Technology,2021(18):209-216. 被引量：6
5Wang Yang,Bo Jiang,Zhihui Liu,Rui Li,Liqiang Hou,Zhengxuan Li,Yongli Duan,Xingru Yan,Fan Yang,Yongfeng Li.Magnetic coupling engineered porous dielectric carbon within ultralow filler loading toward tunable and high-performance microwave absorption[J].Journal of Materials Science & Technology,2021(11):214-223. 被引量：6
6Chuang Tian,Qingrong Yao,Zhaofei Tong,Huaiying Zhou,Guanghui Rao,Jianqiu Deng,Zhongmin Wang,Jiang Wang.Effects of Sm-doping on microstructure,magnetic and microwave absorption properties of BiFeO_(3)[J].Journal of Rare Earths,2021,39(7):835-843. 被引量：6
7Weiming ZHANG,Fu-Zhi DAI,Huimin XIANG,Biao ZHAO,Xiaohui WANG,Na NI,Rajamallu KARRE,Shijiang WU,Yanchun ZHOU.Enabling highly efficient and broadband electromagnetic wave absorption by tuning impedance match in high-entropy transition metal diborides (HETMB_(2))[J].Journal of Advanced Ceramics,2021,10(6):1299-1316. 被引量：7
8Huimin XIANG,Yan XING,Fu-zhi DAI,Hongjie WANG,Lei SU,Lei MIAO,Guojun ZHANG,Yiguang WANG,Xiwei QI,Lei YAO,Hailong WANG,Biao ZHAO,Jianqiang LI,Yanchun ZHOU.High-entropy ceramics:Present status,challenges,and a look forward[J].Journal of Advanced Ceramics,2021,10(3):385-441. 被引量：70
9Jingxin Wu,Meng Zhang,Zhanqiang Li,Minzhong Huang,Huiming Xiang,Liyan Xue,Zhengming Jiang,Zhigang Zhao,Lianfeng Wei,Yong Zheng,Fan Yang,Guang Ran,Yanchun Zhou,Heng Chen.High-entropy(Sm_(0.2)Eu_(0.2)Gd_(0.2)Dy_(0.2)Er_(0.2))_(2)Hf_(2)O_(7) ceramic with superb resistance to radiation-induced amorphization[J].Journal of Materials Science & Technology,2023(24):1-9. 被引量：4
10Xiaogu Huang,Man Qiao,Xiaochi Lu,Yafei Li,Yabin Ma,Bo Kang,Bin Quan,Guangbin Ji.Evolution of dielectric loss-dominated electromagnetic patterns in magnetic absorbers for enhanced microwave absorption performances[J].Nano Research,2021,14(11):4006-4013. 被引量：9

二级参考文献55

1Fei LI,Lin ZHOU,Ji-Xuan LIU,Yongcheng LIANG,Guo-Jun ZHANG.High-entropy pyrochlores with low thermal conductivity for thermal barrier coating materials[J].Journal of Advanced Ceramics,2019,8(4):576-582. 被引量：56
2Zifan Zhao,Heng Chen,Huimin Xiang,Fu-Zhi Dai,Xiaohui Wang,Wei Xu,Kuang Sun,Zhijian Peng,Yanchun Zhou.(Y0.25Yb0.25Er0.25Lu0.25)2(Zr0.5Hf0.5)2O7: A defective fluorite structured high entropy ceramic with low thermal conductivity and close thermal expansion coefficient to Al2O3[J].Journal of Materials Science & Technology,2020(4):167-172. 被引量：19
3Heng Chen,Zifan Zhao,Huimin Xiang,Fu-Zhi Dai,Jie Zhang,Shaogang Wang,Jiachen Liu,Yanchun Zhou.Effect of reaction routes on the porosity and permeability of porous high entropy(Y0.2Yb0.2Sm0.2Nd0.2Eu0.2)B6 for transpiration cooling[J].Journal of Materials Science & Technology,2020(3):80-85. 被引量：9
4施尔畏,元如林,陈之战,郑燕青,童怀水,李汶军,仲维卓.An introduction to computational crystallography:the relationship between aluminum-based spinel structures and their morphologies[J].Science China(Technological Sciences),2003,46(3):259-270. 被引量：9
5Guizhen 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：36
6Biao 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
7Jun-Liang Liu,Peng Zhang,Xing-Kai Zhang,Qing-Qing Xie,Dong-Jun Pan,Jian Zhang,Ming Zhang.Synthesis and microwave absorbing properties of La-doped Sr-hexaferrite nanopowders via sol-gel auto-combustion method[J].Rare Metals,2017,36(9):704-710. 被引量：11
8熊吉磊,潘顺康,成丽春,林培豪,姚青荣,范雨龙.Dy对Pr_2Fe_(17)合金微波吸收特性的影响（英文）[J].稀有金属材料与工程,2017,46(8):2060-2064. 被引量：1
9张蔚冉,Peter K.Liaw,张勇.Science and technology in high-entropy alloys[J].Science China Materials,2018,61(1):2-22. 被引量：91
10Yanchun Zhou,Huimin Xiang,Zhihai Feng,Zhongping Li.General Trends in Electronic Structure, Stability, Chemical Bonding and Mechanical Properties of Ultrahigh Temperature Ceramics TMB_2(TM=transition metal)[J].Journal of Materials Science & Technology,2015,31(3):285-294. 被引量：4

共引文献119

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：13
2纪彭超,杨静歆,谭琳,孙福,苏兴华.高熵(Mg_(0.2)Co_(0.2)Ni_(0.2)Cu_(0.2)Zn_(0.2))O纳米粉体的简易制备及超电容性能[J].硅酸盐学报,2023,51(1):124-132.
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刘渊,王炜,涂群章,何春平.碳基磁性复合吸波剂的研究进展[J].兵器装备工程学报,2018,39(12):147-152. 被引量：5
5朱逸,李歌,唐东明,张豹山,杨燚.宽频带超材料微波吸收结构研究[J].南京大学学报（自然科学版）,2019,55(3):478-485. 被引量：1
6Min Zhang,Chen Han,Wen-Qiang Cao,Mao-Sheng Cao,Hui-Jing Yang,Jie Yuan.A Nano-Micro Engineering Nanofiber for Electromagnetic Absorber,Green Shielding and Sensor[J].Nano-Micro Letters,2021,13(2):112-123. 被引量：12
7张琳雪,孙勇,努尔尼沙•阿力甫.P-GN/Ni复合材料的制备及其微波吸收性能研究[J].电子显微学报,2021,40(2):108-115. 被引量：1
8王鹏宇,薛子怡,于显利,王天皓,杨开宇,王欣.石墨烯基纸的制备、性能及其应用[J].表面技术,2021,50(5):36-50. 被引量：3
9李万喜,杜意恩,郭芳,陈勇强.CoFe_(2)O_(4)-Co_(3)Fe_(7)纳米粒子及CoFe_(2)O_(4)/多孔碳的制备及其电磁性能研究[J].材料研究学报,2021,35(4):302-312. 被引量：2
10Yongpeng Zhao,Xueqing Zuo,Yuan Guo,Hui Huang,Hao Zhang,Ting Wang,Ningxuan Wen,Huan Chen,Tianze Cong,Javid Muhammad,Xuan Yang,Xinnan Wang,Zeng Fan,Lujun Pan.Structural Engineering of Hierarchical Aerogels Comprised of Multi-dimensional Gradient Carbon Nanoarchitectures for Highly Efficient Microwave Absorption[J].Nano-Micro Letters,2021,13(9):344-363. 被引量：18

1Jianghao Wen,Di Lan,Yiqun Wang,Lianggui Ren,Ailing Feng,Zirui Jia,Guanglei Wu.Absorption properties and mechanism of lightweight and broadband electromagnetic wave-absorbing porous carbon by the swelling treatment[J].International Journal of Minerals,Metallurgy and Materials,2024,31(7):1701-1712. 被引量：2
2Xu Wang,Mingyu Meng,Feihan Xu,Ling Liu,Lihong Gao,Shizhen Zhu,Zhuang Ma.(Lu_(1/7)Yb_(1/7)Sc_(1/7)Er_(1/7)Y_(1/7)Ho_(1/7)Dy_(1/7))_(2)Si_(2)O_(7)high entropy rare-earth disilicate with low thermal conductivity and excellent resistance to CMAS corrosion[J].Journal of Advanced Ceramics,2024,13(5):549-560.
3Qingyi Kong,Rao Zhang,Lei Chen,Sijia Huo,Wenyu Lu,Yujin Wang,Boxin Wei,Yu Zhou.Phase transition of multi-component(TiZrVNb)C ceramics—Part I:Phase decomposition induced by carbon content[J].Journal of Advanced Ceramics,2024,13(5):679-688.
4张育育,吴轶城,孙佳,付前刚.聚合物转化SiHfCN陶瓷的制备及其吸波性能[J].无机材料学报,2024,39(6):681-690.
5Yuehua Qian,Qingqing Ruan,Mengda Xue,Lingyun Chen.Emerging perovskite materials for supercapacitors:Structure,synthesis,modification,advanced characterization,theoretical calculation and electrochemical performance[J].Journal of Energy Chemistry,2024,89(2):41-70.
6Zhangjue Wang,Fan Zhang,Nannan Wang,Wei Li,Yongqiang Chen,Hailong Wang,Rui Zhang,Yanqiu Zhu,Bingbing Fan.Ternary layered boride MoAlB:A novel thermo-regulation microwave absorbing ceramic material[J].Journal of Advanced Ceramics,2024,13(5):699-710.
7Tao Chen,Yanyan He,Yanyu Pan,Kaixian Wang,Minzhong Huang,Liyan Xue,Yazhu Li,Fan Yang,Yanchun Zhou,Heng Chen.High-entropy rare earth stannate ceramics:Acid corrosion resistant radiative cooling materials with high atmospheric transparency window emissivity and high near-infrared solar reflectivity[J].Journal of Advanced Ceramics,2024,13(5):630-640.
8Chi Cao,Jinshuo Li,Yang Hu,Lin Zhang,Wensheng Yang.Mechanism investigation of A-site doping on modulating electronic band structure and photocatalytic performance towards CO_(2) reduction of LaFeO_(3) perovskite[J].Nano Research,2024,17(5):3733-3744.
9Xuemei Wang,Xi Zhou,Ruiben Jin,Tianqi Tan,Hao Ma,Ruimei Fang,Bangwei Deng,Fan Dong.Defect-poor BaSn(OH)6 enhanced charge separation for efficient photocatalytic degradation of toluene[J].Journal of Environmental Sciences,2023(12):86-95.
10Na Liang,Zixu Yin,Jingyun Guo,Wanying Fang,Qi Wang,Ge Tian,Dong Zhang,Huijuan Yue,Shouhua Feng.Yolk-shell structure synergistic defect engineering for boosting electromagnetic wave absorption in Co_(9)S_(8)@Humins-derived carbon[J].Journal of Materials Science & Technology,2023(33):140-149.

Journal of Rare Earths

2024年第6期

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ⅢA-ⅡB multicomponent perovskite rare earth ferrites with promising electromagnetic wave absorption properties

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