2021
DOI: 10.1039/d1ma00121c
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A binary PMMA/PVDF blend film modified substrate enables a superior lithium metal anode for lithium batteries

Abstract: Metallic lithium is an promising next generation electrode material due to its ultrahigh specific capacity and the lowest potential. However, short cycling lifespan and safety hazards have hindered the practical...

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Cited by 24 publications
(8 citation statements)
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“…Besides, a binary PMMA/PVDF nanofibrous mat was also reported to coat the surface of Cu foil via in situ electrospinning and served as a modified protective layer in suppressing the growth of dendritic Li. 209 Although the use of 3D porous materials can effectively reduce the local current density at the collector surface, which thus inhibits the growth of lithium dendrites. However, the 3D porous collector without lithiophilic properties always leads to the deposition of lithium metal on the outside of the 3D porous structure rather than within the 3D pore voids, especially at high current density and large areal capacity deposition conditions.…”
Section: Current Collector Modificationmentioning
confidence: 99%
See 1 more Smart Citation
“…Besides, a binary PMMA/PVDF nanofibrous mat was also reported to coat the surface of Cu foil via in situ electrospinning and served as a modified protective layer in suppressing the growth of dendritic Li. 209 Although the use of 3D porous materials can effectively reduce the local current density at the collector surface, which thus inhibits the growth of lithium dendrites. However, the 3D porous collector without lithiophilic properties always leads to the deposition of lithium metal on the outside of the 3D porous structure rather than within the 3D pore voids, especially at high current density and large areal capacity deposition conditions.…”
Section: Current Collector Modificationmentioning
confidence: 99%
“…Benefiting from this particularly designed nano‐web protective layer, the as‐fabricated 3D‐web PVDF scaffold electrode was proved efficient in suppressing the dendritic growth of Li and therefore provided reliable Li plating/stripping reversibility at a high current density of 2.3 mA cm −2 . Besides, a binary PMMA/PVDF nanofibrous mat was also reported to coat the surface of Cu foil via in situ electrospinning and served as a modified protective layer in suppressing the growth of dendritic Li 209 …”
Section: Electrospinning Technique Toward Stable Lithium Metal Anodesmentioning
confidence: 99%
“…In the past few decades, many methods have been developed to suppress the growth of Li dendrites, including the utilization of solid electrolytes, [ 7 ] anode structure design, [ 8,9 ] electrolyte modification, [ 10 ] and high‐concentration electrolytes, [ 11 ] etc. Among them, the strategy of the electrolyte modification by additive to stabilize the Li anode is considered to be an economical and practical method.…”
Section: Introductionmentioning
confidence: 99%
“…These problems may reduce the safety and stability of Li-metal batteries. [8][9][10] In recent years, a variety of methods for stabilizing Li-metal anodes, including adding additives to liquid electrolytes, [11][12][13] preparing artificial solid electrolyte interphase (SEI) films, [14][15][16] fabricating 3D composite Li-anode structure, [17][18][19][20][21] or using solid-state electrolytes (SSEs), [22][23][24] have been reported. Substantial progress has been indeed made in improving the stability and cycling performance of Li anodes.…”
Section: Introductionmentioning
confidence: 99%
“…[ 15 ] Xiao et al fabricated an artificial Li 4 Ti 5 O 12 ‐decorated copper foil, which formed a concentrated Li + ‐ion region in the electrode interface after the initial activation process that could effectively mitigate the effect of the spatial charge region produced by ion depletion on lithium‐dendrite growth. [ 21 ] Deng et al developed a core–shell structured composite Li‐metal anode with a thin layer of liquid alloy containing lithium as the shell. The SEI formed on the shell demonstrated excellent stability and durability, and could significantly improve the cycle life of batteries.…”
Section: Introductionmentioning
confidence: 99%