Zhenxiang Cheng spends much of his time researching Condensed matter physics, Ferroelectricity, Magnetization, Multiferroics and Ferromagnetism. His biological study spans a wide range of topics, including Ferrimagnetism and Lattice constant. His Ferroelectricity research incorporates themes from Thin film, Curie temperature, Nuclear magnetic resonance and Polarization.
Zhenxiang Cheng has researched Thin film in several fields, including Crystallography and Optoelectronics. Zhenxiang Cheng combines subjects such as Transition metal, Bismuth ferrite and Terahertz radiation with his study of Magnetization. The concepts of his Ferromagnetism study are interwoven with issues in Praseodymium, Lanthanum and Intermetallic.
His scientific interests lie mostly in Condensed matter physics, Ferroelectricity, Ferromagnetism, Crystal and Doping. His Condensed matter physics study combines topics in areas such as Magnetization and Multiferroics. His Ferroelectricity research incorporates themes from Thin film and Polarization.
His Crystal study deals with Analytical chemistry intersecting with Mineralogy. His work in Doping addresses issues such as Thermoelectric effect, which are connected to fields such as Electrical resistivity and conductivity. His Spintronics study integrates concerns from other disciplines, such as Fermi level and Spin polarization.
His primary scientific interests are in Condensed matter physics, Ceramic, Optoelectronics, Ferroelectricity and Energy storage. His work in Condensed matter physics is not limited to one particular discipline; it also encompasses Magnetization. His Ceramic research integrates issues from Piezoelectricity and Work.
The Optoelectronics study combines topics in areas such as Composite number, Thermal conductivity and Thermoelectric effect. Zhenxiang Cheng interconnects Polarization, Single crystal and Stacking in the investigation of issues within Ferroelectricity. His work carried out in the field of Energy storage brings together such families of science as Film capacitor, Capacitor and Dielectric.
Zhenxiang Cheng mainly investigates Optoelectronics, Energy storage, Dielectric, Piezoelectricity and Ceramic. His research integrates issues of Thermal conductivity, Thermoelectric materials, Nanostructure, Scanning electron microscope and Phonon in his study of Optoelectronics. The concepts of his Energy storage study are interwoven with issues in Film capacitor and Capacitor.
Zhenxiang Cheng works on Dielectric which deals in particular with Ferroelectricity. Zhenxiang Cheng studies Bismuth ferrite, a branch of Ferroelectricity. Zhenxiang Cheng studied Piezoelectricity and Mechanical energy that intersect with Voltage.
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Structure, ferroelectric properties, and magnetic properties of the La-doped bismuth ferrite
Zhenxiang Cheng;Aihua Li;Xiaolin Wang;S X Dou.
Journal of Applied Physics (2008)
Ultrahigh piezoelectricity in ferroelectric ceramics by design
Fei Li;Fei Li;Dabin Lin;Zi-Bin Chen;Zhenxiang Cheng.
Nature Materials (2018)
Improved ferroelectric properties in multiferroic BiFeO3 thin films through La and Nb codoping
Zhenxiang Cheng;Xiaolin Wang;Shixue Dou;Hideo Kimura.
Physical Review B (2008)
The origin of ultrahigh piezoelectricity in relaxor-ferroelectric solid solution crystals
Fei Li;Fei Li;Shujun Zhang;Shujun Zhang;Tiannan Yang;Zhuo Xu.
Nature Communications (2016)
Giant piezoelectricity of Sm-doped Pb(Mg1/3Nb2/3)O3-PbTiO3 single crystals.
Fei Li;Fei Li;Matthew J. Cabral;Bin Xu;Bin Xu;Zhenxiang Cheng.
Perovskite lead-free dielectrics for energy storage applications
Letao Yang;Xi Kong;Fei Li;Hua Hao.
Progress in Materials Science (2019)
Very strong intrinsic flux pinning and vortex avalanches in (Ba,K)Fe2As2 superconducting single crystals
Xiaolin Wang;Shaban R Ghorbani;Sung-Ik Lee;S X Dou.
Physical Review B (2010)
Large magnetoelectric coupling in magnetically short-range ordered Bi5Ti3FeO15 film
Hongyang Zhao;Hongyang Zhao;Hideo Kimura;Zhenxiang Cheng;Minoru Osada.
Scientific Reports (2015)
High thermoelectric and mechanical performance in highly dense Cu2−xS bulks prepared by a melt-solidification technique
Lanling Zhao;Xiaolin Wang;Frank Yun Fei;Jiyang Wang.
Journal of Materials Chemistry (2015)
Ultrasmall Magnetic CuFeSe2 Ternary Nanocrystals for Multimodal Imaging Guided Photothermal Therapy of Cancer.
Xinxin Jiang;Shaohua Zhang;Shaohua Zhang;Feng Ren;Lei Chen.
ACS Nano (2017)
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