Eun Kwang Jang scite author profile

The development of lithium metal anodes for next generation batteries remains a challenge. Uncontrolled Li dendrite growth not only induces severe safety issues but also leads to capacity fading by continuously consuming the electrolyte. This study demonstrates the design and fabrication of a composite protective layer composed of a high dielectric polymer, inorganic particles, and an electrolyte to overcome these obstacles. This layer not only suppresses dendrite growth, but also prevents LiPF6 degradation. The electrolyte introduced in the protective layer remains within the coating layer after solvent removal and acts as an ion transport channel at the interface. This enables the protective layer to exhibit high ionic conductivity and mechanical strength. The composite protective layer, which exhibits synergistic soft‐rigid characteristics, is placed on the Li metal anode and facilitates superior interfacial stability during long‐term cycles. LiMn2O4/coated lithium full cells using the composite protective layer show a superior rate capability and enhanced capacity retention compared to the cells using a bare lithium anode. The proposed strategy opens new avenues to fabricate a sustainable composite protective layer that affords superior performance in lithium metal batteries.

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Two-dimensional, P-doped Si/SiOx alternating veneer-like microparticles for high-capacity lithium-ion battery composite

Jang

Kim

et al. 2020

Chemical Engineering Journal

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Batteries: High Dielectric, Robust Composite Protective Layer for Dendrite‐Free and LiPF₆ Degradation‐Free Lithium Metal Anode (Adv. Funct. Mater. 48/2019)

Jang

Ahn

Yoon

et al. 2019

Adv Funct Materials

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One-pot fabrication of uniform half-moon-shaped biodegradable microparticles via microfluidic approach

Jang

Yim

et al. 2020

Journal of Industrial and Engineering Chemistry

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Eun Kwang Jang

Ultrathin ZrO2 on LiNi0.5Mn0.3Co0.2O2 electrode surface via atomic layer deposition for high-voltage operation in lithium-ion batteries

High Dielectric, Robust Composite Protective Layer for Dendrite‐Free and LiPF₆ Degradation‐Free Lithium Metal Anode

Two-dimensional, P-doped Si/SiOx alternating veneer-like microparticles for high-capacity lithium-ion battery composite

Batteries: High Dielectric, Robust Composite Protective Layer for Dendrite‐Free and LiPF₆ Degradation‐Free Lithium Metal Anode (Adv. Funct. Mater. 48/2019)

One-pot fabrication of uniform half-moon-shaped biodegradable microparticles via microfluidic approach

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Eun Kwang Jang

Ultrathin ZrO2 on LiNi0.5Mn0.3Co0.2O2 electrode surface via atomic layer deposition for high-voltage operation in lithium-ion batteries

High Dielectric, Robust Composite Protective Layer for Dendrite‐Free and LiPF6 Degradation‐Free Lithium Metal Anode

Two-dimensional, P-doped Si/SiOx alternating veneer-like microparticles for high-capacity lithium-ion battery composite

Batteries: High Dielectric, Robust Composite Protective Layer for Dendrite‐Free and LiPF6 Degradation‐Free Lithium Metal Anode (Adv. Funct. Mater. 48/2019)

One-pot fabrication of uniform half-moon-shaped biodegradable microparticles via microfluidic approach

Contact Info

Product

Resources

About

High Dielectric, Robust Composite Protective Layer for Dendrite‐Free and LiPF₆ Degradation‐Free Lithium Metal Anode

Batteries: High Dielectric, Robust Composite Protective Layer for Dendrite‐Free and LiPF₆ Degradation‐Free Lithium Metal Anode (Adv. Funct. Mater. 48/2019)