Jie Feng scite author profile

Turns of coil antenna with ferrite core is the most critical parameter when designing receiving coil antennas for wireless magnetic inductive communication. According to the adjustment of turns, the self-inductance, self-resistance, and mutual inductance of the coil will change respectively. Parallel resonance is often used in receiving coils to obtain a considerable induced voltage which supplies for receiving system. In this article, we summarize the parameters of the ferrite coil antenna with its corresponding circuit model and parallel resonance circuit. Moreover, the optimized turns of receiving coil antenna with ferrite core are analyzed. Meanwhile, an experiment has been built to verify the proposed conclusion with calculations. The results show that measurement results are well-matched with calculated ones. Turns of the coil can be optimized to get larger induced voltage and the conclusion will guide for designing coils for wireless magnetic inductive communication.

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Dual Modulation Strategy of Mn Donor Doping and Se Vacancy Endows Large Capacity and High-Rate Charge Storage in a Ni3Se4 Battery-Type Cathode

Zhao

Zhang

et al. 2023

Preprint

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Transition metal selenides (TMSs) have been extensively explored as the most attractive battery-type supercapacitor cathodes. However, TMSs usually exhibit elusive active sites, sluggish reaction/diffusion kinetics, and poor conductivity, which severely degrade their capacity and rate performance. To overcome these shortcomings of TMSs, herein, we employ a synchronous strategy of Mn donor doping and Se vacancy in a flower-like Ni3Se4 cathode and optimize the dopant/vacancy concentration (VSe(M)–Mn(M)–Ni3Se4) to maximize electron release from Mn and effectively accumulate the electrons around the vacancy, resulting in maximum electron transfer during the charge–discharge process. Moreover, the proposed strategy can intrinsically tune electronic structure, increase electroactive sites, accelerate OH− diffusion kinetics, and pledge the ion chemisorption–desorption equilibrium verified based on first-principle calculations. Thus, the fabricated cathode exhibits ultrahigh capacity and rate capability (357 and 275 mAh g−1 at 1 and 100 A g−1, respectively), and a hybrid supercapacitor with the cathode exhibits sufficient energy density of 118 Wh kg−1 at 0.8 kW kg−1 and exceptional durability, which is considerably greater than that exhibited by supercapacitors comprising other cathodes. Moreover, the charge–discharge mechanism is elaborated in detail via ex situ techniques. This study provides fundamental guidelines for constructing high-performance battery-type cathodes, which can be used in next-generation supercapacitors.

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Jie Feng

Modulating e orbitals through ligand engineering to boost the electrocatalytic activity of NiSe for advanced lithium-sulfur batteries

Lithiation-induced controllable vacancy engineering for developing highly active Ni3Se2 as a high-rate and large-capacity battery-type cathode in hybrid supercapacitors

Optimized coil turns of receiving ferrite core antenna for wireless magnetic inductive communication

Dual Modulation Strategy of Mn Donor Doping and Se Vacancy Endows Large Capacity and High-Rate Charge Storage in a Ni3Se4 Battery-Type Cathode

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