首页|Enhanced energy density and fast-charging ability via directional particle configuration
Enhanced energy density and fast-charging ability via directional particle configuration
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The limited energy density of lithium-ion capacitors poses a significant obstacle to their widespread application,primarily stemming from the inability of the electrodes to simultaneously fulfill both high energy density and rapid charging requirements.Experimental data demonstrate that a directional par-ticle configuration can enhance charging speed while maintaining high-capacity density,but it is rarely discussed.Here,we have developed a particle-level electrochemical model capable of reconstructing an electrode with a directional particle configuration.By employing this method,an investigation was con-ducted to explore how the spatial morphology characteristics of particle configuration impact the energy storage characteristics of electrodes.Results demonstrate that rational particle configuration can effec-tively enhance the transport of lithium ions and create additional space for lithium-ion storage.With the same particle size distribution,the best electrode can increase the discharge capacity by up to 132.4%and increase the charging SOC by 11.3%compared to the ordinary electrode under the condition of 6 C.These findings provide a further understanding of the energy storage mechanism inside the ani-sotropic particle distribution electrode,which is important for developing high-performance lithium-ion capacitors.
SupercapacitorGradient design strategiesEnergy storageCharge transport
Xiongwei Wu、Shanguang lv、Jiabao Li、Xingrong Yin、Xuewen Wu、Jun Liu、Jie Zhang、Yuhan Yu、Bei Long
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Hunan Yinfeng New Energy Co.Ltd.,Changsha 410019,Hunan,China
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