Enabling fast charging of high energy density Li-ion cells with high lithium ion transport electrolytes

Enabling fast charging capability of high energy density Li-ion cells could dramatically increase the widespread adoption of battery electric vehicles. However, fast charging is limited by Li ion depletion in the electrolyte and increasing Li ion transport from cathode to anode is essential. By eval...

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Veröffentlicht in:	Electrochemistry communications 2019-06, Vol.103 (C)
Hauptverfasser:	Du, Zhijia, Wood, III, David L., Belharouak, Ilias
Format:	Artikel
Sprache:	eng
Schlagworte:	Electrolyte ENERGY STORAGE Fast charging LiFSI NMC811
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container_title	Electrochemistry communications
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creator	Du, Zhijia Wood, III, David L. Belharouak, Ilias
description	Enabling fast charging capability of high energy density Li-ion cells could dramatically increase the widespread adoption of battery electric vehicles. However, fast charging is limited by Li ion depletion in the electrolyte and increasing Li ion transport from cathode to anode is essential. By evaluating different Li salts in the electrolyte, we find lithium bis(fluorosulfonyl)imide (LFSI) has both higher conductivity and higher Li ion transference number compared to the traditional LiPF6 salt. In a 12-minute charge, the electrolyte with LiPF6 salt reaches the cut-off voltage rapidly while the one with LiFSI exhibits a longer constant current charge with more capacity achieved. The LiFSI electrolyte also reflects better cycling performance and less Li plating after repeated fast charging cycles.
doi_str_mv	10.1016/j.elecom.2019.04.013
format	Article
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(ORNL), Oak Ridge, TN (United States)</creatorcontrib><title>Enabling fast charging of high energy density Li-ion cells with high lithium ion transport electrolytes</title><title>Electrochemistry communications</title><description>Enabling fast charging capability of high energy density Li-ion cells could dramatically increase the widespread adoption of battery electric vehicles. However, fast charging is limited by Li ion depletion in the electrolyte and increasing Li ion transport from cathode to anode is essential. By evaluating different Li salts in the electrolyte, we find lithium bis(fluorosulfonyl)imide (LFSI) has both higher conductivity and higher Li ion transference number compared to the traditional LiPF6 salt. In a 12-minute charge, the electrolyte with LiPF6 salt reaches the cut-off voltage rapidly while the one with LiFSI exhibits a longer constant current charge with more capacity achieved. 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subjects	Electrolyte ENERGY STORAGE Fast charging LiFSI NMC811
title	Enabling fast charging of high energy density Li-ion cells with high lithium ion transport electrolytes
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