M
Mao-Sheng Cao
Researcher at Beijing Institute of Technology
Publications - 346
Citations - 33083
Mao-Sheng Cao is an academic researcher from Beijing Institute of Technology. The author has contributed to research in topics: Dielectric & Microwave. The author has an hindex of 81, co-authored 314 publications receiving 24046 citations. Previous affiliations of Mao-Sheng Cao include Tsinghua University & Harbin Institute of Technology.
Papers
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Dynamic response and reinforcement mechanism of composites embedded with tetraneedlelike ZnO nanowhiskers
TL;DR: In this article, a type of glass-fiber reinforced composites was prepared by dispersing tetraneedle-like ZnO nanowhiskers in epoxy matrix.
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Synthesis and growth mechanism of 3D α-MnO2 clusters and their application in polymer composites with enhanced microwave absorption properties
TL;DR: In this article, 3D hollow-sphere-like clusters are assembled by 1D nanotubes (HSC-nanotubes) with diameter of around 80-100 nm and length of around 2-3 μm.
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Magnetic-field-induced dielectric behaviors and magneto-electrical coupling of multiferroic compounds containing cobalt ferrite/barium calcium titanate composite fibers.
Deqing Zhang,Junye Cheng,Junye Cheng,Jixing Chai,Jiji Deng,Ran Ren,Yang Su,Hao Wang,Chunqing Ma,Chun-Sing Lee,Wenjun Zhang,Guangping Zheng,Mao-Sheng Cao +12 more
TL;DR: This work provides a novel and effective approach in enhancing the dielectric constants of ceramic ferroelectrics, which is of tremendous value for industrial applications, and elucidates the interaction mechanisms between ferromagnetic phase and ferroelectric phase in multiferroic compounds.
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High dielectric loss and microwave absorption behavior of multiferroic BiFeO3ceramic
Jie Yuan,Zhi-Ling Hou,Hui-Jing Yang,Yong Li,Yu-Qing Kang,Wei-Li Song,Haibo Jin,Xiao-Yong Fang,Mao-Sheng Cao +8 more
TL;DR: In this article, single-phase multiferroic BiFeO3 nanoparticles were synthesized by the sol-gel method and their dielectric properties were investigated in the temperature range of 373-773 K at frequencies 12.4-18 GHz.
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Microwave permittivity and permeability experiments in high-loss dielectrics: Caution with implicit Fabry-Pérot resonance for negative imaginary permeability
Zhi-Ling Hou,Min Zhang,Ling-Bao Kong,Hui-Min Fang,Zhong-Jun Li,Hai-Feng Zhou,Haibo Jin,Mao-Sheng Cao +7 more
TL;DR: In this paper, the Fabry-Perot resonance (FPR) can produce a negative imaginary permeability, which should be classified as an extrinsic rather than an intrinsic physical attribute.