Dynamic Zn/Electrolyte Interphase and Enhanced Cation Transfer of Sol Electrolyte for All‐Climate Aqueous Zinc Metal Batteries

Peng, Haiying; Wang, Chunting; Wang, Dongdong; Song, Xinxin; Zhang, Chenghui; Yang, Jian

doi:10.1002/ange.202308068

Angewandte Chemie

2023

DOI: 10.1002/ange.202308068

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Dynamic Zn/Electrolyte Interphase and Enhanced Cation Transfer of Sol Electrolyte for All‐Climate Aqueous Zinc Metal Batteries

Haiying Peng

Chunting Wang

Dongdong Wang

et al.

Abstract: Zn metal as one of the promising anodes of aqueous batteries possesses notable advantages, but it faces severe challenges from severe side reactions and notorious dendrite growth. Here, ultrathin nanosheets of α‐zirconium phosphate (ZrP) are explored as an electrolyte additive. The nanosheets not only create a dynamic and reversible interphase on Zn but also promote the Zn2+ transportation in the electrolyte, especially in the outer Helmholtz plane near ZrP. Benefited from the enhanced kinetics and dynamic int… Show more

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“…For the more cost-effective and stable ZnSO 4 , its low-temperature performance is poor and almost no studies for ZnSO 4 -based electrolyte have been able to achieve an operating temperature lower than −20 °C (Table S1). ,− …”

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confidence: 99%

Strong Replaces Weak: Design of H-Bond Interactions Enables Cryogenic Aqueous Zn Metal Batteries

Zhu,

He,

Shi

et al. 2023

ACS Nano

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Despite the numerous advantages of aqueous Zn batteries, their practical application under cryogenic conditions is hindered by the freezing of the electrolyte because the abundance of hydrogen bonds (H-bonds) between H 2 O molecules drives the aqueous system to transform to an orderly frozen structure. Here, a design of H-bond interactions based on the guiding ideology of "strong replaces weak" is proposed. The strong H-bonds formed between introduced eutectic components and water molecules break down the weak Hbonds in the original water molecule network, which contributes to an ultralow freezing point and a high ionic conductivity of 1.7 mS cm −1 at −40 °C. Based on multiperspective theoretical simulations and tailor-made in situ cooling Raman characterizations, it has been demonstrated that substituting weak H-bonds with strong H-bonds facilitates the structural reshaping of Zn 2+ solvation and remodeling of the H-bond network in the electrolyte. Endowed with this advantage, reversible and stable Zn plating/stripping behaviors could be realized at −40 °C, and the full cells display a high discharge capacity (200 mA h g −1 ) at −40 °C with ∼75% capacity retention after 1000 cycles. This study will expand the design philosophy of antifreezing aqueous electrolytes and provide a perspective to promote the adoption of Zn metal batteries for cryogenic environment large-scale energy storage.

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confidence: 99%

Strong Replaces Weak: Design of H-Bond Interactions Enables Cryogenic Aqueous Zn Metal Batteries

Zhu,

He,

Shi

et al. 2023

ACS Nano

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Building block effect induces horizontally oriented bottom Zn(002) deposition for a highly stable zinc anode

Han

Wang

Zhang

et al. 2023

Energy Storage Materials

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Regulating solvation structure and enhancing anion-derived solid electrolyte interphase with N, N'-Dimethylpropyleneurea Co-solvent for long-term and dendrite-free Zn metal anodes

Song,

Huang,

et al. 2024

Energy Storage Materials

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Dynamic Zn/Electrolyte Interphase and Enhanced Cation Transfer of Sol Electrolyte for All‐Climate Aqueous Zinc Metal Batteries

Cited by 3 publications

References 33 publications

Strong Replaces Weak: Design of H-Bond Interactions Enables Cryogenic Aqueous Zn Metal Batteries

Strong Replaces Weak: Design of H-Bond Interactions Enables Cryogenic Aqueous Zn Metal Batteries

Building block effect induces horizontally oriented bottom Zn(002) deposition for a highly stable zinc anode

Regulating solvation structure and enhancing anion-derived solid electrolyte interphase with N, N'-Dimethylpropyleneurea Co-solvent for long-term and dendrite-free Zn metal anodes

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