Yuanjie Zhan scite author profile

Batteries with lithium metal anodes are promising because of lithium’s high energy density. However, the growth of Li dendrites on the surface of the Li electrode in a liquid electrolyte during cycling reduces the safety and cycle performance of batteries, hindering their commercial application. In this work, we observe for the first time a smooth and dendrite-free Li deposition with a vertically grown, self-aligned, and highly compact columnar structure formed during cycling in a mixed carbonate–ether electrolyte. The stable microsized (∼10 μm in diameter and ∼20 μm in length) Li deposits are aligned in arrays on the surface of the Li electrode. The columnar Li deposits still exhibit a dendrite-free morphology and a compact structure after 200 cycles at a current density of 1 mA/cm2 and a 1.5 mAh/cm2 cycling capacity in a mixed carbonate–ether electrolyte. This work shows an optimiztic outlook for Li batteries with liquid electrolytes.

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Nano-Sn embedded in expanded graphite as anode for lithium ion batteries with improved low temperature electrochemical performance

Yan

Ben

Zhan

et al. 2016

Electrochimica Acta

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Using Li2S to Compensate for the Loss of Active Lithium in Li-ion Batteries

Zhan

Ben

et al. 2017

Electrochimica Acta

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Application of Li₂S to compensate for loss of active lithium in a Si–C anode

Zhan

Ben

et al. 2018

J. Mater. Chem. A

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Yuanjie Zhan

Dendrite-Free Lithium Deposition with Self-Aligned Columnar Structure in a Carbonate–Ether Mixed Electrolyte

Nano-Sn embedded in expanded graphite as anode for lithium ion batteries with improved low temperature electrochemical performance

Using Li2S to Compensate for the Loss of Active Lithium in Li-ion Batteries

Application of Li₂S to compensate for loss of active lithium in a Si–C anode

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Yuanjie Zhan

Dendrite-Free Lithium Deposition with Self-Aligned Columnar Structure in a Carbonate–Ether Mixed Electrolyte

Nano-Sn embedded in expanded graphite as anode for lithium ion batteries with improved low temperature electrochemical performance

Using Li2S to Compensate for the Loss of Active Lithium in Li-ion Batteries

Application of Li2S to compensate for loss of active lithium in a Si–C anode

Contact Info

Product

Resources

About

Application of Li₂S to compensate for loss of active lithium in a Si–C anode