2023
DOI: 10.1002/adfm.202303319
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Nanosecond Pulsed Laser‐Assisted Deposition to Construct a 3D Quasi‐Gradient Lithiophilic Skeleton for Stable Lithium Metal Anodes

Abstract: The continuous growth of Li dendrites and volumetric deformation of Li severely impede the commercial application of Li metal anodes. To regulate Li stripping/plating, electrodeposition or magnetron sputtering is extensively utilized to fabricate lithiophilic‐metal deposited 3D Li hosts. However, the binding force between lithiophilic‐metal and host is weak, inevitably leading to numerous cracks/defects of lithiophilic‐surface‐layer during Li plating/stripping. Herein, a quasi‐gradient (Cu‐Cu3Sn‐Sn‐SnO2) 3D sk… Show more

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Cited by 13 publications
(6 citation statements)
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“…The lower overpotential and longer cycling life of LiSn@CN@CC reveal that the introduction of the LiSn alloy and in situ modification of Li 3 N can uniformly guide the Li deposition during cycling, promoting rapid diffusion of Li during stripping/electroplating and achieving stable cycling under a high current density. 35,36 As shown in Figure 3b, Li@CC and Li foil electrodes present a short-circuit phenomenon after 60 h. However, the LiSn@CN@CC electrode exhibits a apparently enhanced cycling performance over 200 h with a low overpotential of 50 mV. Additionally, LiSn@CN@CC anodeassembled symmetric batteries can maintain relatively stable cycling under the stripping/plating capacity of 10.0 mAh cm −2 at 5.0 mA cm −2 , presenting a sharp contrast to Li foil and Li@CC symmetrical batteries (Figure S2 of the Supporting Information).…”
Section: ■ Results and Discussionmentioning
confidence: 99%
“…The lower overpotential and longer cycling life of LiSn@CN@CC reveal that the introduction of the LiSn alloy and in situ modification of Li 3 N can uniformly guide the Li deposition during cycling, promoting rapid diffusion of Li during stripping/electroplating and achieving stable cycling under a high current density. 35,36 As shown in Figure 3b, Li@CC and Li foil electrodes present a short-circuit phenomenon after 60 h. However, the LiSn@CN@CC electrode exhibits a apparently enhanced cycling performance over 200 h with a low overpotential of 50 mV. Additionally, LiSn@CN@CC anodeassembled symmetric batteries can maintain relatively stable cycling under the stripping/plating capacity of 10.0 mAh cm −2 at 5.0 mA cm −2 , presenting a sharp contrast to Li foil and Li@CC symmetrical batteries (Figure S2 of the Supporting Information).…”
Section: ■ Results and Discussionmentioning
confidence: 99%
“…Additionally, Hui et al prepared laser-induced Cu 3 Sn/Sn/ SnO 2 interlayers to improve the interfacial stability between the Cu CC and Li metal anode. [118] The laser-deposited Sn/SnO 2 layers can store Li ions and induce homogeneous nucleation of Li. Moreover, the Cu 3 Sn layer improved the adhesion between the interlayer and the Cu foam.…”
Section: Interfacial Engineering Via Laser-induced Interlayersmentioning
confidence: 99%
“…[19] Unfortunately, the intrinsic lithiophobic property of general 3D porous frameworks such as metal foams and carbon skeletons, resulting in a high nucleation barrier, which extremely motivates the growth of Li dendrites. For that, lithiophilic modification by decorating with specific components such as single atoms, [20] metal seeds, [21,22] and compounds, [23,24] has been verified to reduce the lithium nucleation barrier and induce the uniform Li plating. [25] However, under high current density while electrochemical kinetics is dominated by ions diffusion, a large Li + concentration difference will be generated between electrode and separator, and the lithiophilic frameworks will be disabled.…”
Section: Introductionmentioning
confidence: 99%