R
Renchao Che
Researcher at Fudan University
Publications - 338
Citations - 20236
Renchao Che is an academic researcher from Fudan University. The author has contributed to research in topics: Microwave & Reflection loss. The author has an hindex of 56, co-authored 247 publications receiving 11299 citations. Previous affiliations of Renchao Che include Shanghai University.
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Growth of magnetic metals on carbon microspheres with synergetic dissipation abilities to broaden microwave absorption
Pan Hui, Zhang Zhenlin, Guo Chao,Biao Zhao,Biao Zhao,Yang Li,Qingwen Zeng,Bingbing Fan,Lei Wang,Rui Zhang,Renchao Che +8 more
TL;DR: In this paper, a core-shell structural carbon microsphere/magnetic metal composites were fabricated through the combination of an electrostatic assembly approach and subsequent in-situ reduction reaction.
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Enhanced dielectric polarization from disorder-engineered Fe3O4@black TiO2-x heterostructure for broadband microwave absorption
TL;DR: In this article, a novel core-shell Fe3O4@black TiO2-x (Fe3O 4@b-TiO 2-x) heterostructure was successfully fabricated via a surface treatment strategy in vacuum.
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Enhanced Stability of the Magnetic Skyrmion Lattice Phase under a Tilted Magnetic Field in a Two-Dimensional Chiral Magnet.
TL;DR: This work investigated the angular-dependent stability of magnetic skyrmions in FeGe nanosheets by using high-resolution Lorentz transmission electron microscopy (Lorentz TEM), and observed an unexpected reentry-like phenomenon at the moderate temperatures near the border between conical andskyrmion phase.
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Confined Magnetic-Dielectric Balance Boosted Electromagnetic Wave Absorption.
TL;DR: In this article, using the metal-organic frameworks (MOF) as templates, highly-dispersed ZnO and Co nanoparticles are uniformly confined inside graphited N-doped carbon skeleton, constructing the balanced EM property in the Co@NC-ZnO absorbers.
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3D conductive network wrapped CeO2-x Yolk@Shell hybrid microspheres for selective-frequency microwave absorption
TL;DR: In this article, a hierarchical CeO2-x yolk@shell microsphere encapsulated by the CNTs hybrid three-dimensional (3D) conductive network (denoted as CMC) was successfully fabricated by a simple solvothermal method through a cooperative-assembly strategy owing to a synergistic effect of reactants.