Xiaohui Wang focuses on Dielectric, Ceramic, Microstructure, Composite material and Analytical chemistry. In the subject of general Dielectric, his work in Permittivity is often linked to Energy storage and Gibbs free energy, thereby combining diverse domains of study. His study in Ceramic is interdisciplinary in nature, drawing from both Grain boundary, Sintering, Capacitor, Ferroelectric ceramics and Grain size.
The Microstructure study combines topics in areas such as Coating, Raman spectroscopy, Permeability and Dissipation factor. Xiaohui Wang has included themes like High-κ dielectric, Nanoparticle and Ceramic capacitor in his Composite material study. Xiaohui Wang has researched Analytical chemistry in several fields, including Dielectric loss and Ferroelectricity.
Xiaohui Wang spends much of his time researching Ceramic, Dielectric, Composite material, Sintering and Microstructure. His biological study spans a wide range of topics, including Piezoelectricity, Mineralogy, Grain size and Doping. The concepts of his Dielectric study are interwoven with issues in Ceramic capacitor and Analytical chemistry.
His study on Coating is often connected to Energy storage as part of broader study in Composite material. His Sintering research includes themes of Transmission electron microscopy, Nano- and Ferrite. His Ferroelectricity research incorporates elements of Thin film and Condensed matter physics.
His primary scientific interests are in Composite material, Ceramic, Dielectric, Energy storage and Sintering. His Composite material research incorporates themes from Dielectric strength, Ferroelectricity and Permittivity. In Ceramic, Xiaohui Wang works on issues like Doping, which are connected to Nanotechnology.
His studies deal with areas such as Analytical chemistry, Ceramic capacitor and Nanocomposite as well as Dielectric. His Analytical chemistry research is multidisciplinary, incorporating perspectives in Tetragonal crystal system and Phase boundary. His Sintering research includes elements of Dielectric spectroscopy, Transmission electron microscopy and Schottky barrier.
Composite material, Ceramic, Dielectric, Energy storage and Grain size are his primary areas of study. His work on Nanocomposite, Volume fraction and Polymer as part of general Composite material research is frequently linked to Strain, bridging the gap between disciplines. His Ceramic study combines topics from a wide range of disciplines, such as Reducing atmosphere, Doping, Ferroelectricity, Capacitor and Microstructure.
His work carried out in the field of Ferroelectricity brings together such families of science as Yield and Activation energy. His Dielectric research is multidisciplinary, relying on both Ceramic capacitor and Nanostructure. His study connects Sintering and Grain size.
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BaTiO3–BiYbO3 perovskite materials for energy storage applications
Zhengbo Shen;Xiaohui Wang;Bingcheng Luo;Longtu Li.
Journal of Materials Chemistry (2015)
Fabrication, characterization, properties and theoretical analysis of ceramic/PVDF composite flexible films with high dielectric constant and low dielectric loss
Bingcheng Luo;Xiaohui Wang;Yueping Wang;Longtu Li.
Journal of Materials Chemistry (2014)
Lead-free BaTiO3–Bi(Zn2/3Nb1/3)O3 weakly coupled relaxor ferroelectric materials for energy storage
Longwen Wu;Xiaohui Wang;Longtu Li.
RSC Advances (2016)
Preparation and characterization of nano-TiO2 powder
Baorang Li;Xiaohui Wang;Minyu Yan;Longtu Li.
Materials Chemistry and Physics (2003)
MoS2/TiO2 heterostructures as nonmetal plasmonic photocatalysts for highly efficient hydrogen evolution
Limin Guo;Zhenzhong Yang;Kyle Marcus;Zhao Li.
Energy and Environmental Science (2018)
Significantly enhanced energy storage performance promoted by ultimate sized ferroelectric BaTiO3 fillers in nanocomposite films
Yanan Hao;Xiaohui Wang;Ke Bi;Jiameng Zhang.
Nano Energy (2017)
Ultrafine core-shell BaTiO3@SiO2 structures for nanocomposite capacitors with high energy density
Ke Bi;Meihua Bi;Yanan Hao;Wei Luo.
Nano Energy (2018)
High-Performance Relaxor Ferroelectric Materials for Energy Storage Applications
Peiyao Zhao;Hongxian Wang;Longwen Wu;Lingling Chen.
Advanced Energy Materials (2019)
Grain size effect on piezoelectric and ferroelectric properties of BaTiO3 ceramics
Yu Huan;Xiaohui Wang;Jian Fang;Longtu Li.
Journal of The European Ceramic Society (2014)
Core-satellite BaTiO3@SrTiO3 assemblies for a local compositionally graded relaxor ferroelectric capacitor with enhanced energy storage density and high energy efficiency
Longwen Wu;Xiaohui Wang;Huiling Gong;Yanan Hao.
Journal of Materials Chemistry C (2015)
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