All‐Impurities Scavenging, Safe Separators with Functional Metal‐Organic‐Frameworks for High‐Energy‐Density Li‐Ion Battery

Li‐ion batteries (LIBs) have wide applications owing to their high‐energy density and stable cycle characteristics. Nevertheless, with the rapid expansion of electric vehicle market, issues such as explosion of LIBs and the need to secure a longer driving distance have emerged. In this work, functio...

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Veröffentlicht in:	Advanced functional materials 2023-09, Vol.33 (37)
Hauptverfasser:	Son, Hye Bin, Cho, Sujee, Baek, Kyungeun, Jung, Jaeho, Nam, Seoha, Han, Dong‐Yeob, Kang, Seok Ju, Moon, Hoi Ri, Park, Soojin
Format:	Artikel
Sprache:	eng
Schlagworte:	Cathodes Electric vehicles Electrolytes High temperature Hydrofluoric acid Impurities Interface stability Lithium-ion batteries Materials science Metal-organic frameworks Product safety Scavenging Separators
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container_title	Advanced functional materials
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creator	Son, Hye Bin Cho, Sujee Baek, Kyungeun Jung, Jaeho Nam, Seoha Han, Dong‐Yeob Kang, Seok Ju Moon, Hoi Ri Park, Soojin
description	Li‐ion batteries (LIBs) have wide applications owing to their high‐energy density and stable cycle characteristics. Nevertheless, with the rapid expansion of electric vehicle market, issues such as explosion of LIBs and the need to secure a longer driving distance have emerged. In this work, functional metal–organic frameworks (MOFs) are introduced as a separator in LIBs, in which a highly heat‐resistant polymer separator is fabricated through electrospinning. The MOFs can scavenge impurities (including gas, water, and hydrofluoric acid) that positively affect battery performance and safety. The multi‐functional separator suppresses salt decomposition when a nickel‐rich cathode is operated at high voltage and high temperature through it. This delays the deterioration of the cathode interface and results in a superb cycle stability with 75% retention even in the presence of 500 ppm of water in the electrolytes. In addition, the pouch cell is manufactured by enlarging the separator, and the degree of electrode swelling due to gas generation and interface degradation in the pouch state is alleviated to 50% or less. These findings highlight the necessity of scavenging impurities to maintain excellent performance and provides the development direction of functional separators in LIBs.
doi_str_mv	10.1002/adfm.202302563
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subjects	Cathodes Electric vehicles Electrolytes High temperature Hydrofluoric acid Impurities Interface stability Lithium-ion batteries Materials science Metal-organic frameworks Product safety Scavenging Separators
title	All‐Impurities Scavenging, Safe Separators with Functional Metal‐Organic‐Frameworks for High‐Energy‐Density Li‐Ion Battery
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