Xiaofen Yang
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View article: Charge Localization Induced by Lattice Distortion in Corrugated Carbon Nanotubes for Multiple‐Scenario Electromagnetic Response
Charge Localization Induced by Lattice Distortion in Corrugated Carbon Nanotubes for Multiple‐Scenario Electromagnetic Response Open
Carbon nanotubes (CNTs) are promising electromagnetic‐response materials owing to their exceptional electrical conductivity, thermal stability, and tunable dielectric properties. However, their performance is hindered by their unavoidable …
View article: Design of Gel‐Based Materials for Electromagnetic Wave Absorption
Design of Gel‐Based Materials for Electromagnetic Wave Absorption Open
Over the past 20 years, there is a shift of research and development in electromagnetic wave (EMW) absorption materials toward exploiting the unique structure and composition of gel‐based based materials to manipulate EMWs. In this article…
View article: Electrochemical Switching of Electromagnetism by Hierarchical Disorder Tailored Atomic Scale Polarization
Electrochemical Switching of Electromagnetism by Hierarchical Disorder Tailored Atomic Scale Polarization Open
High‐frequency electronic response governs a broad spectrum of electromagnetic applications from radiation protection, and signal compatibility, to energy recovery. Despite various efforts to manage electric conductivity, dynamic control o…
View article: Dimensional Self‐Assembled Magnetic Coupling via Embedding Ferromagnetic Nanoparticles in Multi‐Channel Fibers for Microwave Absorption
Dimensional Self‐Assembled Magnetic Coupling via Embedding Ferromagnetic Nanoparticles in Multi‐Channel Fibers for Microwave Absorption Open
1D magnetic fibers with significant morphological diversity and magnetic anisotropy are highly desirable for optimizing magnetic properties and electromagnetic responsiveness. However, it remains challenging for the precise control over in…
View article: Multidimensional Engineering Induced Interfacial Polarization by in‐Situ Confined Growth of MoS<sub>2</sub> Nanosheets for Enhanced Microwave Absorption
Multidimensional Engineering Induced Interfacial Polarization by in‐Situ Confined Growth of MoS<sub>2</sub> Nanosheets for Enhanced Microwave Absorption Open
Interface design has enormous potential for the enhancement of interfacial polarization and microwave absorption properties. However, the construction of interfaces is always limited in components of a single dimension. Developing systemat…