Ji Zhou mostly deals with Metamaterial, Optics, Permittivity, Dielectric and Optoelectronics. His Metamaterial research incorporates elements of Electromagnetically induced transparency, Microwave and Liquid crystal. His research integrates issues of Resonance and Magnetic field in his study of Optics.
His Permittivity study combines topics in areas such as Composite material, Microstructure, Ceramic, Electrical resistivity and conductivity and Analytical chemistry. His research in Dielectric intersects with topics in Sintering, Isotropy and Condensed matter physics. His Optoelectronics research includes themes of Electric field, Passband and Nuclear magnetic resonance.
Dielectric, Metamaterial, Optics, Optoelectronics and Composite material are his primary areas of study. His Dielectric research incorporates elements of Dipole and Absorption. His Metamaterial research focuses on Condensed matter physics and how it relates to Magnetic dipole and Terahertz radiation.
Ji Zhou has included themes like Resonance and Electric field in his Optics study. His work in Ceramic covers topics such as Microstructure which are related to areas like Analytical chemistry, Chemical engineering, Scanning electron microscope and Sol-gel. In his study, Ferromagnetic resonance is strongly linked to Ferrite, which falls under the umbrella field of Sintering.
His main research concerns Metamaterial, Optoelectronics, Dielectric, Optics and Terahertz radiation. His Metamaterial research incorporates themes from Photonics, Scattering, Polarization, Broadband and Electric field. The Optoelectronics study combines topics in areas such as Work, Coupling, Magnetic field and Bandwidth.
He combines subjects such as Dipole, Resonator and Fano resonance with his study of Dielectric. His Transmission research extends to Optics, which is thematically connected. In his study, which falls under the umbrella issue of Terahertz radiation, Antiferromagnetism, Ferromagnetism and Condensed matter physics is strongly linked to Ceramic.
His primary areas of study are Metamaterial, Optoelectronics, Dielectric, Optics and Photocatalysis. His Metamaterial research is multidisciplinary, relying on both Computational physics, Scattering, Oscillation, Nonlinear system and Anharmonicity. His studies in Optoelectronics integrate themes in fields like Amplitude and Ranging.
His work deals with themes such as Molecular physics, Dipole, Oligomer and Toroid, which intersect with Dielectric. Much of his study explores Optics relationship to Condensed matter physics. His Photocatalysis study combines topics from a wide range of disciplines, such as Nanosheet, Chemical engineering, Visible spectrum and Scanning electron microscope.
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Mie resonance-based dielectric metamaterials
Qian Zhao;Ji Zhou;Fuli Zhang;Didier Lippens.
Materials Today (2009)
Synthesis of nanocrystalline NiCuZn ferrite powders by sol–gel auto-combustion method
Zhenxing Yue;Ji Zhou;Longtu Li;Hongguo Zhang.
Journal of Magnetism and Magnetic Materials (2000)
Electrically tunable negative permeability metamaterials based on nematic liquid crystals
Qian Zhao;Lei Kang;Bo Du;Bo Li.
Applied Physics Letters (2007)
Experimental demonstration of isotropic negative permeability in a three-dimensional dielectric composite.
Qian Zhao;Lei Kang;B. Du;H. Zhao.
Physical Review Letters (2008)
An extremely broad band metamaterial absorber based on destructive interference.
Jingbo Sun;Lingyun Liu;Guoyan Dong;Ji Zhou.
Optics Express (2011)
Mechanical metamaterials associated with stiffness, rigidity and compressibility: a brief review
Xianglong Yu;Xianglong Yu;Ji Zhou;Haiyi Liang;Zhengyi Jiang.
Progress in Materials Science (2017)
Synthesis and optical properties of silver nanowire arrays embedded in anodic alumina membrane
Rui-Long Zong;Ji Zhou;Qi Li;Bo Du.
Journal of Physical Chemistry B (2004)
Preparation and characterization of NiCuZn ferrite nanocrystalline powders by auto-combustion of nitrate–citrate gels
Zhenxing Yue;Longtu Li;Ji Zhou;Hongguo Zhang.
Materials Science and Engineering B-advanced Functional Solid-state Materials (1999)
A Ferroelectric Ferromagnetic Composite Material with Significant Permeability and Permittivity
X. Qi;X. Qi;J. Zhou;Z. Yue;Z. Gui.
Advanced Functional Materials (2004)
Effects of charge compensation on the luminescence behavior of Eu3+ activated CaWO4 phosphor
Shikao Shi;Jing Gao;Ji Zhou.
Optical Materials (2008)
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