Fluoroethylene Carbonate Additives to Render Uniform Li Deposits in Lithium Metal Batteries

Lithium (Li) metal has been considered as an important substitute for the graphite anode to further boost the energy density of Li‐ion batteries. However, Li dendrite growth during Li plating/stripping causes safety concern and poor lifespan of Li metal batteries (LMB). Herein, fluoroethylene carbon...

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Published in	Advanced functional materials Vol. 27; no. 10; pp. np - n/a
Main Authors	Zhang, Xue‐Qiang, Cheng, Xin‐Bing, Chen, Xiang, Yan, Chong, Zhang, Qiang
Format	Journal Article
Language	English
Published	Hoboken Wiley Subscription Services, Inc 10.03.2017
Subjects	Additives Anodes Anodic protection Carbonates Cathodes Copper dendrites Dendritic structure Deposits Energy density Energy storage fluoroethylene carbonate Flux density Graphite Intercalation Li metal anodes Li metal batteries Life span LiNi0.5Co0.2Mn0.3O2 cathodes Lithium Lithium batteries Materials science Morphology Plating Rechargeable batteries solid electrolyte interphases Stripping
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Abstract	Lithium (Li) metal has been considered as an important substitute for the graphite anode to further boost the energy density of Li‐ion batteries. However, Li dendrite growth during Li plating/stripping causes safety concern and poor lifespan of Li metal batteries (LMB). Herein, fluoroethylene carbonate (FEC) additives are used to form a LiF‐rich solid electrolyte interphase (SEI). The FEC‐induced SEI layer is compact and stable, and thus beneficial to obtain a uniform morphology of Li deposits. This uniform and dendrite‐free morphology renders a significantly improved Coulombic efficiency of 98% within 100 cycles in a Li \| Cu half‐cell. When the FEC‐protected Li metal anode matches a high‐loading LiNi0.5Co0.2Mn0.3O2 (NMC) cathode (12 mg cm−2), a high initial capacity of 154 mAh g−1 (1.9 mAh cm−2) at 180.0 mA g−1 is obtained. This LMB with conversion‐type Li metal anode and intercalation‐type NMC cathode affords an emerging energy storage system to probe the energy chemistry of Li metal protection and demonstrates the material engineering of batteries with very high energy density. Fluoroethylene carbonate (FEC) additive is used to form a LiF‐rich solid electrolyte interphase (SEI). The FEC‐induced SEI layer is compact and stable, and therefore beneficial to obtain a uniform morphology of Li deposits. When the FEC‐protected Li metal anode matches a high‐loading oxide cathode, a high initial capacity and stable cycling are achieved.
AbstractList	Lithium (Li) metal has been considered as an important substitute for the graphite anode to further boost the energy density of Li‐ion batteries. However, Li dendrite growth during Li plating/stripping causes safety concern and poor lifespan of Li metal batteries (LMB). Herein, fluoroethylene carbonate (FEC) additives are used to form a LiF‐rich solid electrolyte interphase (SEI). The FEC‐induced SEI layer is compact and stable, and thus beneficial to obtain a uniform morphology of Li deposits. This uniform and dendrite‐free morphology renders a significantly improved Coulombic efficiency of 98% within 100 cycles in a Li \| Cu half‐cell. When the FEC‐protected Li metal anode matches a high‐loading LiNi 0.5 Co 0.2 Mn 0.3 O 2 (NMC) cathode (12 mg cm −2 ), a high initial capacity of 154 mAh g −1 (1.9 mAh cm −2 ) at 180.0 mA g −1 is obtained. This LMB with conversion‐type Li metal anode and intercalation‐type NMC cathode affords an emerging energy storage system to probe the energy chemistry of Li metal protection and demonstrates the material engineering of batteries with very high energy density. Lithium (Li) metal has been considered as an important substitute for the graphite anode to further boost the energy density of Li-ion batteries. However, Li dendrite growth during Li plating/stripping causes safety concern and poor lifespan of Li metal batteries (LMB). Herein, fluoroethylene carbonate (FEC) additives are used to form a LiF-rich solid electrolyte interphase (SEI). The FEC-induced SEI layer is compact and stable, and thus beneficial to obtain a uniform morphology of Li deposits. This uniform and dendrite-free morphology renders a significantly improved Coulombic efficiency of 98% within 100 cycles in a Li \| Cu half-cell. When the FEC-protected Li metal anode matches a high-loading LiNi sub(0.5)Co sub(0.2)Mn sub(0.3)O sub(2) (NMC) cathode (12 mg cm super(-2)), a high initial capacity of 154 mAh g super(-1) (1.9 mAh cm super(-2)) at 180.0 mA g super(-1) is obtained. This LMB with conversion-type Li metal anode and intercalation-type NMC cathode affords an emerging energy storage system to probe the energy chemistry of Li metal protection and demonstrates the material engineering of batteries with very high energy density. Fluoroethylene carbonate (FEC) additive is used to form a LiF-rich solid electrolyte interphase (SEI). The FEC-induced SEI layer is compact and stable, and therefore beneficial to obtain a uniform morphology of Li deposits. When the FEC-protected Li metal anode matches a high-loading oxide cathode, a high initial capacity and stable cycling are achieved. Lithium (Li) metal has been considered as an important substitute for the graphite anode to further boost the energy density of Li‐ion batteries. However, Li dendrite growth during Li plating/stripping causes safety concern and poor lifespan of Li metal batteries (LMB). Herein, fluoroethylene carbonate (FEC) additives are used to form a LiF‐rich solid electrolyte interphase (SEI). The FEC‐induced SEI layer is compact and stable, and thus beneficial to obtain a uniform morphology of Li deposits. This uniform and dendrite‐free morphology renders a significantly improved Coulombic efficiency of 98% within 100 cycles in a Li \| Cu half‐cell. When the FEC‐protected Li metal anode matches a high‐loading LiNi0.5Co0.2Mn0.3O2 (NMC) cathode (12 mg cm−2), a high initial capacity of 154 mAh g−1 (1.9 mAh cm−2) at 180.0 mA g−1 is obtained. This LMB with conversion‐type Li metal anode and intercalation‐type NMC cathode affords an emerging energy storage system to probe the energy chemistry of Li metal protection and demonstrates the material engineering of batteries with very high energy density. Fluoroethylene carbonate (FEC) additive is used to form a LiF‐rich solid electrolyte interphase (SEI). The FEC‐induced SEI layer is compact and stable, and therefore beneficial to obtain a uniform morphology of Li deposits. When the FEC‐protected Li metal anode matches a high‐loading oxide cathode, a high initial capacity and stable cycling are achieved. Lithium (Li) metal has been considered as an important substitute for the graphite anode to further boost the energy density of Li-ion batteries. However, Li dendrite growth during Li plating/stripping causes safety concern and poor lifespan of Li metal batteries (LMB). Herein, fluoroethylene carbonate (FEC) additives are used to form a LiF-rich solid electrolyte interphase (SEI). The FEC-induced SEI layer is compact and stable, and thus beneficial to obtain a uniform morphology of Li deposits. This uniform and dendrite-free morphology renders a significantly improved Coulombic efficiency of 98% within 100 cycles in a Li \| Cu half-cell. When the FEC-protected Li metal anode matches a high-loading LiNi0.5Co0.2Mn0.3O2 (NMC) cathode (12 mg cm-2), a high initial capacity of 154 mAh g-1 (1.9 mAh cm-2) at 180.0 mA g-1 is obtained. This LMB with conversion-type Li metal anode and intercalation-type NMC cathode affords an emerging energy storage system to probe the energy chemistry of Li metal protection and demonstrates the material engineering of batteries with very high energy density.
Author	Cheng, Xin‐Bing Zhang, Xue‐Qiang Zhang, Qiang Chen, Xiang Yan, Chong
Author_xml	– sequence: 1 givenname: Xue‐Qiang surname: Zhang fullname: Zhang, Xue‐Qiang organization: Tsinghua University – sequence: 2 givenname: Xin‐Bing surname: Cheng fullname: Cheng, Xin‐Bing organization: Tsinghua University – sequence: 3 givenname: Xiang surname: Chen fullname: Chen, Xiang organization: Tsinghua University – sequence: 4 givenname: Chong surname: Yan fullname: Yan, Chong organization: Tsinghua University – sequence: 5 givenname: Qiang surname: Zhang fullname: Zhang, Qiang email: zhang-qiang@mails.tsinghua.edu.cn organization: Tsinghua University
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Snippet	Lithium (Li) metal has been considered as an important substitute for the graphite anode to further boost the energy density of Li‐ion batteries. However, Li... Lithium (Li) metal has been considered as an important substitute for the graphite anode to further boost the energy density of Li-ion batteries. However, Li...
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SubjectTerms	Additives Anodes Anodic protection Carbonates Cathodes Copper dendrites Dendritic structure Deposits Energy density Energy storage fluoroethylene carbonate Flux density Graphite Intercalation Li metal anodes Li metal batteries Life span LiNi0.5Co0.2Mn0.3O2 cathodes Lithium Lithium batteries Materials science Morphology Plating Rechargeable batteries solid electrolyte interphases Stripping
Title	Fluoroethylene Carbonate Additives to Render Uniform Li Deposits in Lithium Metal Batteries
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