Cationic Metal–Organic Framework Arrays to Enable Dendrite-Free Lithium Metal Anodes

Pang, Le; Lu, Jiahui; Yu, Yongyue; Li, Dongfang; Chen, Yong; Wang, Shijian; Wang, Yan; Sun, Bing; Wang, Hongxia; Wang, Guoxiu

doi:10.1021/acsenergylett.4c01345

ACS Energy Lett.

2024

DOI: 10.1021/acsenergylett.4c01345

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Cationic Metal–Organic Framework Arrays to Enable Dendrite-Free Lithium Metal Anodes

Le Pang,

Jiahui Lu,

Yongyue Yu

et al.

Abstract: The severe safety issues caused by uncontrolled lithium (Li) dendrite growth hinder the practical application of Li metal anodes. Herein, we designed cationic metal−organic framework arrays on nickel foam (NF−CMOF) as a multifunctional current collector for dendrite-free Li metal anodes. The cationic MOF (CMOF) was synthesized by grafting bis-(trifluoromethane)sulfonimidate (TFSI) functional groups on the MOF nanosheets via a facile hydrothermal method. The high surface area, good lithiophilicity, and positive… Show more

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Cited by 2 publications

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Design Double Layered Anode for Stably Introducing Lithium Source to Achieve Sulfur‐Carbon Full Batteries

Zhang,

Lei

et al. 2024

Adv Funct Materials

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Lithium‐sulfur batteries offer high energy density but face great safety and cycle life challenges due to the use of Li metal anode. Replacing the Li metal anode with pre‐lithiated carbon anodes can thoroughly address cycling stability and safety issues. Directly contacting Li foil with graphite electrode is one of the most efficient and simple strategy to introduce a high content of lithium source into the sulfur‐carbon full batteries. However, the 100% lithiation of the graphite anode through the direct contact method generates excessive heat and stress heterogeneity, which leads to electrode structure cracking and electrochemical properties fading. This study implements a double‐layer anode to mitigate these issues. A thin layer of hard carbon placed between graphite and Cu foil limits heat generation and stress heterogeneity due to its structural and electrochemical stability. Additionally, differing from traditional electrochemical lithiation, this method gains better solid electrolyte interphase (SEI) for the graphite anode after several cycles. This research highlights the mass production potential of coupling high energy density lithium source‐free cathode materials with various lithium source‐free anodes for constructing long‐cycle and high‐safety rechargeable batteries.

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Design Double Layered Anode for Stably Introducing Lithium Source to Achieve Sulfur‐Carbon Full Batteries

Zhang,

Lei

et al. 2024

Adv Funct Materials

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show abstract

Revealing the effects of functional group in organic linkers on properties of metal organic frameworks electrode and their performance in supercapacitors

Pang,

Lei,

Zou

et al. 2024

Chemical Engineering Journal

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Cationic Metal–Organic Framework Arrays to Enable Dendrite-Free Lithium Metal Anodes

Cited by 2 publications

References 42 publications

Design Double Layered Anode for Stably Introducing Lithium Source to Achieve Sulfur‐Carbon Full Batteries

Design Double Layered Anode for Stably Introducing Lithium Source to Achieve Sulfur‐Carbon Full Batteries

Revealing the effects of functional group in organic linkers on properties of metal organic frameworks electrode and their performance in supercapacitors

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