Yong‐Hyeok Lee scite author profile

Spiderweb‐mimicking anion‐exchangeable separators are presented as a membrane‐driven strategy for the development of high‐performance Li‐S batteries by Sang‐Young Lee and co‐workers in article number https://doi.org/10.1002/adfm.201801422. The polyionic liquid (PVIm[TFSI])‐based nanomat in the spider separator enables discharge voltage‐dependent, reversible trap/release of polysulfides via an anion exchange reaction between TFSI− anions and polysulfides. The seperator's unique nanomat structure and chemical functionalities exceptionally improve the electrochemical performance of Li‐S batteries.

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Electrical Conductivity Gradients: Electrical Conductivity Gradient Based on Heterofibrous Scaffolds for Stable Lithium‐Metal Batteries (Adv. Funct. Mater. 14/2020)

Hong

Jung

Kim

et al. 2020

Adv Funct Materials

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Energy‐Storage Materials: Why Cellulose‐Based Electrochemical Energy Storage Devices? (Adv. Mater. 28/2021)

et al. 2021

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The recent progress of cellulose for use in energy storage devices as an appealing natural material that can outperform traditional synthetic materials is described by Sang-Young Lee, Leif Nyholm, and co-workers in article number 2000892. Driven by its structural/chemical uniqueness, cellulose brings exceptional benefits in the manufacturing of components and devices, along with improvements in their electrochemical performance, mechanical flexibility, cost competitiveness, and form factors.

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Yong‐Hyeok Lee

Nanomat Li–S batteries based on all-fibrous cathode/separator assemblies and reinforced Li metal anodes: towards ultrahigh energy density and flexibility

Hetero‐Nanonet Rechargeable Paper Batteries: Toward Ultrahigh Energy Density and Origami Foldability

Lithium–Sulfur Batteries: Spiderweb‐Mimicking Anion‐Exchanging Separators for Li–S Batteries (Adv. Funct. Mater. 41/2018)

Electrical Conductivity Gradients: Electrical Conductivity Gradient Based on Heterofibrous Scaffolds for Stable Lithium‐Metal Batteries (Adv. Funct. Mater. 14/2020)

Energy‐Storage Materials: Why Cellulose‐Based Electrochemical Energy Storage Devices? (Adv. Mater. 28/2021)

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