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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Copper- and Cobalt-Codoped CeO2 Nanospheres with Abundant Oxygen Vacancies as Highly Efficient Electrocatalysts for Dual-Mode Electrochemical Sensing of MicroRNA.
TL;DR: CeO2 nanospheres codoped with Cu and Co were first synthesized and exploited as efficient electrocatalysts for dual-mode electrochemical sensing of microRNA (miRNA) and showed a wide linear range with a low detection limit, paving a new way for constructing ultrasensitive electrochemical sensors.
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Hollow microspheres of polypyrrole/magnetite/carbon nanotubes by spray-dry as an electromagnetic synergistic microwave absorber
TL;DR: In this article, a ternary polypyrrole@Fe3O4/carbon nanotubes (PPy@Fe4/CNTs) microspheres with special hollow structure were successfully fabricated via a facile spray-dry method, which can realize rational assembly of magnetic and dielectric components.
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Hollow TiNb2O7@C Spheres with Superior Rate Capability and Excellent Cycle Performance as Anode Material for Lithium-Ion Batteries
Guozhen Zhu,Qing Li,Renchao Che +2 more
TL;DR: Hollow TiNb2 O7 @C spheres are reported for the first time, with carbon spheres as sacrificial template, which can effectively relieve the volume expansion during the repeated process of charging/discharging.
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Remarkable Magnetic Exchange Coupling via Constructing Bi‐Magnetic Interface for Broadband Lower‐Frequency Microwave Absorption
Mingyue Yuan,Biao Zhao,Chendi Yang,Ke Pei,Long-ping Wang,Ruixuan Zhang,Wenbin You,Xianhu Liu,Xuefeng Zhang,Renchao Che +9 more
TL;DR: In this paper , a core-shell structured hard/soft ferrite composite with abundant heterointerface is created using facile spray-drying and subsequent solvothermal approach, where hard magnetic BaFe(12−x)CoxO19 serves as the core and soft magnetic Fe3O4 serves as shell, respectively.
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Janus-like Fe3O4/PDA vesicles with broadening microwave absorption bandwidth
TL;DR: In this article, asymmetric Janus nanocomposites of Fe3O4/PDA vesicles were successfully prepared, and they exhibited strong absorption intensity (−50.0 dB) and ultra-wide bandwidth (6.4 to 18 GHz) covering 73% of the frequency range of 2-18 GHz with a film thickness of only 2.5 mm.