Robust ZnS interphase for stable Zn metal anode of high-performance aqueous secondary batteries

Xiong, Lingyun; Fu, Hao; Han, Shichang; Wang, Manxiang; Li, Jingwei; Yang, Woochul; Liu, Guicheng

doi:10.1007/s12613-022-2454-z

Cited by 10 publications

(3 citation statements)

References 42 publications

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“…Similar results are also reflected on the P‐Ti electrode, in which the atomic proportion of C, Ti, and F elements is 60.9 %, 21.7 %, and 17.4 %, respectively. The high resolution of C 1s is given in Figure 1f , which can be devolved into the C—C and C—F bonds with the binding energies of 285.3 and 289.0 eV, [ 32 ] respectively, in which the intensity of the C—C peak is significantly higher than the C—F peak. Additionally, the Raman spectra of P‐Zn display obvious D and G peaks at 1336.8 and 1599.3 cm −1 , [ 33 ] respectively (Figure S3 , Supporting Information).…”

Section: Resultsmentioning

confidence: 99%

F‐Doped Carbon Nanoparticles‐Based Nucleation Assistance for Fast and Uniform Three‐Dimensional Zn Deposition

Xiong

Kim

et al. 2023

Advanced Science

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Aqueous Zn metal-based batteries have considerable potential as energy storage system; however, their application is extremely limited by dendrite development and poor reversibility. In this study, to overcome both challenges, F-doped carbon nanoparticles (FCNPs) are uniformly constructed on substrates (Ti, Zn, Cu, and steel) by a plasma-assisted surface modification, which endows reversible and uniform deposition of Zn metal. FCNPs with high surface charge density act as nucleation assistors and form numerous homogenous Zn nucleation sites toward Zn 3D growth, which improves Zn plating kinetic and results in uniform Zn deposition. Furthermore, the ZnF 2 solid electrolyte interface generated during cycling contributes to rapid mass transfer and enhances Zn reversibility, but also suppresses the side reaction. Accordingly, the half-cell of P-Ti coupled with Zn exhibits an average Coulombic efficiency of 99.47% with 500 cycles. The symmetric cell of the P-Zn anode presents a lifespan of over 1500 h at the current density of 5 mA cm −2 . Notably, the cell works for 100 h at 50 mA cm −2 . It is believed that this ingenious surface modification broadens revolutionary methods for uniform metallic deposition, as well as the dendrite-free rechargeable batteries system.

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Section: Resultsmentioning

confidence: 99%

F‐Doped Carbon Nanoparticles‐Based Nucleation Assistance for Fast and Uniform Three‐Dimensional Zn Deposition

Xiong

Kim

et al. 2023

Advanced Science

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“…in aqueous secondary batteries using aqueous electrolytes in energy storage considering safety and cost issues. [4][5][6][7][8] Among these candidates for aqueous rechargeable batteries, zinc-ion batteries (ZIBs) have received a lot of attention. Aqueous zinc ion batteries, usually referred to as AZIBs, in most cases consist of zinc as the metallic anode, and neutral or weakly acidic waterbased electrolytes.…”

Section: Introductionmentioning

confidence: 99%

Nicotinic acid additive with a double regulating mechanism for high-performance aqueous zinc ion batteries

Wang,

Zhang

et al. 2024

J. Mater. Chem. A

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“…[9][10][11] Thereinto, artificial solid electrolyte interface (SEI) has been considered as an effective way to protect the zinc anode against them. 12,13 In particular, the inorganic passivation layers (i.e., ZnF 2 , ZnS) with high-efficiency zinc ion conductivity have been uniformly coated on the surface of zinc anode by in situ or ex-situ strategies, 14,15 which could have induced uniform deposition of zinc and broaden HER overpotential. For instance, ZnF 2 -based modified layers on the Zn anode surface using electrodeposition and vacuum pyrolysis have effectively inhibited dendrites and interfacial side reactions, extending the life span of the zinc anode to 590 h 16 ; By introducing the weak solvation effect into the electrolyte, the in situ inorganic-rich SEI can significantly improve the interfacial dynamic of the zinc anode by promoting the migration rate of the Zn 2+ .…”

Section: Introductionmentioning

confidence: 99%

Highly robust zinc metal anode directed by organic–inorganic synergistic interfaces for wearable aqueous zinc battery

Zhang

et al. 2023

SmartMat

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Flexible aqueous zinc batteries (FAZBs) with high safety and environmental friendliness are promising smart power sources for smart wearable electronics. However, the bare zinc anode usually suffers from damnable dendrite growth and rampant side reaction on the surface, greatly impeding practical applications in FAZBs. Herein, a composite polymer interface layer is artificially self‐assembled on the surface of the zinc anode by graft‐modified fluorinated monomer (polyacrylic acid‐2‐(Trifluoromethyl)propenoic acid, PAA‐TFPA), on which an organic–inorganic hybrid (PAA‐Zn/ZnF2) solid electrolyte interface (SEI) with excellent ionic conductivity is formed by interacting with Zn2+. Both the pouch cell and fiber zinc anode exhibit excellent plating/stripping reversibility after protecting by this organic–inorganic SEI, which can be stably cycled more than 3000 h in symmetric Zn||Zn cells or 550 h in fiber Zn||Zn cells. Additionally, this interface layer preserves zinc anode with excellent mechanical durability under various mechanical deformation (stably working for another 1200 h after bending 100 h). The corresponding PAA‐Zn/ZnF2@Zn||MnO2 full cell displays an ultra‐long life span (79% capacity retention after 3000 cycles) and mechanical robustness (85% of the initial capacity for another 3000 cycles after bending 100 times). More importantly, the as‐assembled cells can easily power smart wearable devices to monitor the user's health condition.

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Robust ZnS interphase for stable Zn metal anode of high-performance aqueous secondary batteries

Cited by 10 publications

References 42 publications

F‐Doped Carbon Nanoparticles‐Based Nucleation Assistance for Fast and Uniform Three‐Dimensional Zn Deposition

F‐Doped Carbon Nanoparticles‐Based Nucleation Assistance for Fast and Uniform Three‐Dimensional Zn Deposition

Nicotinic acid additive with a double regulating mechanism for high-performance aqueous zinc ion batteries

Highly robust zinc metal anode directed by organic–inorganic synergistic interfaces for wearable aqueous zinc battery

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