Hydrophobic-unit-regulated hydrogel electrolytes with high water content and low salt concentration for high-voltage aqueous batteries

IF 35.4 1区材料科学 Q1 CHEMISTRY, PHYSICAL Joule Pub Date : 2025-04-16 Epub Date: 2025-02-03 DOI:10.1016/j.joule.2025.101827

Chuan Li , Tairan Wang , Ho Chi Joseph Lai , Se Weon Park , Wai Yan Kannie Chan , Qing Li , Yuwei Zhao , Jun Fan , Zengxia Pei , Chunyi Zhi

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Abstract

Common aqueous electrolytes with extended electrochemical stability windows (ESWs) have a low water content; thus, water molecules are well confined. However, confinement to metal cations of these aqueous electrolytes, which leads to poor compatibility with available metal-ion charge carriers, has been overlooked. We demonstrated that hydrogel electrolytes with high water content and low salt concentration exhibit wide ESWs through effective water interactions. Moreover, these electrolytes have well-suppressed confinement to metal cations, leading to high battery performance and excellent compatibility with charge carriers. The fabricated hydrophobic-unit-regulated hydrogel electrolyte (HHE) features trace amounts of hydrophobic moieties, which disperse evenly in the HHEs. The hydrophobicity in the vicinity of hydrophilic groups enhances their hydrogen bond strength with water molecules, resulting in an ESW of 3.3 V at a water concentration of 68 wt %. The 2.3, 1.9, and 1.75 V discharge plateaus were observed in aqueous Li₄Ti₅O₁₂||LiMn₂O₄, Zn||MnO₂, and potassium-ion batteries, respectively.

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用于高压水电池的高含水量、低盐浓度的疏水单元调节水凝胶电解质

具有扩展电化学稳定窗口（ESWs）的普通水性电解质含水量低；因此，水分子受到很好的限制。然而，这些水电解质的金属阳离子约束导致与现有金属离子载流子的相容性差，这一点一直被忽视。我们证明了高含水量和低盐浓度的水凝胶电解质通过有效的水相互作用表现出广泛的ESWs。此外，这些电解质对金属阳离子具有良好的抑制约束，从而导致高电池性能和与载流子的良好兼容性。制备的疏水单元调节水凝胶电解质（HHE）具有微量的疏水分子，它们均匀地分散在HHE中。亲水性基团附近的疏水性增强了它们与水分子的氢键强度，在水浓度为68 wt %时产生3.3 V的ESW。在Li4Ti5O12||LiMn2O4、Zn||MnO2和钾离子电池中分别观察到2.3、1.9和1.75 V的放电平台。

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来源期刊

Joule Energy-General Energy

CiteScore

53.10

自引率

2.00%

发文量

198

期刊介绍： Joule is a sister journal to Cell that focuses on research, analysis, and ideas related to sustainable energy. It aims to address the global challenge of the need for more sustainable energy solutions. Joule is a forward-looking journal that bridges disciplines and scales of energy research. It connects researchers and analysts working on scientific, technical, economic, policy, and social challenges related to sustainable energy. The journal covers a wide range of energy research, from fundamental laboratory studies on energy conversion and storage to global-level analysis. Joule aims to highlight and amplify the implications, challenges, and opportunities of novel energy research for different groups in the field.