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Computation-accelerated Design of Dendrite-free Li Batteries
2023The main obstacle to the development of the next-generation Li-based batteries is the formation of Li dendrite on the anode surface. Li dendrite growth contributes to the reduction of coulombic efficiency, poor cycling performance, and internal short circuits.
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Advanced Energy Materials, 2023
Lithium metal is a promising candidate for the high‐energy‐density batteries. However, the high instability of Li against air and dendrite growth during cycling are the key challenges hindering the commercial application of the Li metal battery (LMB). In
Houzhen Li +10 more
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Lithium metal is a promising candidate for the high‐energy‐density batteries. However, the high instability of Li against air and dendrite growth during cycling are the key challenges hindering the commercial application of the Li metal battery (LMB). In
Houzhen Li +10 more
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In-Situ Observation of Li Metal Dendrite Growth
ECS Meeting Abstracts, 2007Abstract not Available.
Kei Nishikawa +2 more
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Effect of Li-Mg Alloy Anode on Li Dendrite Suppressionfor Li-Air Secondary Batteries
ECS Meeting AbstractsNon aqueous Li-air battery (LAB) has been attracting much attention as one of the next-generation batteries because it has a theoretical capacity about ten times that of the conventional Li-ion battery (3505 Wh kg-1). However, there is a risk of short-circuit due to Li dendrite formation on the surface of Li metal anode by charge/discharge cycling ...
Daiki Iwasaki +5 more
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Understanding and Predicting Li Dendrite Formation in Li-Ion Batteries: Phase Field Model
ECS Meeting Abstracts, 2014Lithium dendrite formation can lead the degradation and failure of Lithium ion battery, either because dendrite pieces lose electrical contract with the rest of the Li electrode (typically during Li stripping on discharge) or because growing dendrite can penetrate the separator and lead to internal short-circuiting.
Hao-Wei Zhang +6 more
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Nanostructured Li Metal Anode to Inhibit Dendrite Growth in Safe Li-Metal Batteries
ECS Meeting Abstracts, 2016Li metal is considered as the “Holy Grail” of energy storage systems due to its extremely high theoretical specific capacity (3860 mAh g−1), low gravimetric density (0.59 g cm−3), and lowest negative redox potential (−3.040 V vs. standard hydrogen electrode).
Xin-Bing Cheng +5 more
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The inhibited Li dendrite growth via bulk/liquid dual-phase modulation
Journal of Colloid and Interface Science, 2023Li metal is a potential anode material for the next generation high-energy-density batteries because of its high theoretical specific capacity. However, the inhomogeneous lithium dendrite growth restrains corresponding electrochemical performance and brings safety concerns.
Xin, Dong +4 more
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Prospects for Dendrite-Free Cycling of Li Metal Batteries
Journal of The Electrochemical Society, 2015We discuss the general origins of three-dimensional (3D) growth and morphology instability that can occur during homoepitaxial electrodeposition on initially planar single crystal surfaces and then focus on specific issues relevant to polycrystalline Li metal electrode dissolution/deposition cycling.
Chen, Qing, Geng, Ke, Sieradzki, Karl
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Journal of Membrane Science, 2019
Abstract Li-dendrite resistant and high-performance separators are effective ways to solve the safety problem in advanced Li storage. Several intrinsic factors, including low thermal stability, low porosity and poor wettability, restrict the application of organic separators in safe Li storage.
Yunhong Jiang +4 more
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Abstract Li-dendrite resistant and high-performance separators are effective ways to solve the safety problem in advanced Li storage. Several intrinsic factors, including low thermal stability, low porosity and poor wettability, restrict the application of organic separators in safe Li storage.
Yunhong Jiang +4 more
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Regulating Li transport in Li-magnesium alloy for dendrite free Li metal anode
Nano Research, 2022Jinxi Wang +13 more
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