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Hydrotrope-enabled high concentration aqueous electrolytes for reversible and sustainable iron metal anodes

Iron metal batteries are hindered by poor reversibility and hydrogen evolution. Here, authors introduce a urea-based hydrotrope to create a high-concentration ferrous sulfate electrolyte, enabling stable, dendrite-free cycling and advancing cost-effective, sustainable energy storage.

Guangxia Feng
Zaichun Liu
Yi Cui
ResearchOpen Access04 Dec 2025
Nature Communications

Volume: 16, P: 1-11
In situ formation of liquid crystal interphase in electrolytes with soft templating effects for aqueous dual-electrode-free batteries

Achieving long-cycle-life, aqueous, dual-electrode-free Zn/MnO₂ batteries with high energy density is challenging. This work introduces a liquid crystal interphase in the electrolytes with soft templating effects, considerably enhancing performance.

Yuqi Li
Xueli Zheng
Yi Cui
Research20 Sept 2024
Nature Energy

Volume: 9, P: 1350-1359
High-entropy electrolytes for practical lithium metal batteries

Electrolyte engineering has proven an effective approach to enhance the performance of lithium metal batteries. Here the authors propose a strategy by using multiple solvents in weakly solvating electrolytes—dubbed as high-entropy electrolytes—to improve the ionic conductivity while maintaining electrochemical stability, leading to high-performance batteries.

Sang Cheol Kim
Jingyang Wang
Yi Cui
Research06 Jul 2023
Nature Energy

Volume: 8, P: 814-826
Solvation-property relationship of lithium-sulphur battery electrolytes

In the Li-S battery, a promising next-generation battery chemistry, electrolytes are vital because of solvated polysulfide species. Here, the authors investigate solvation-property relationships via the measurement of solvation free energy of the electrolytes, guiding advanced electrolyte design for Li-S batteries.

Sang Cheol Kim
Xin Gao
Yi Cui
ResearchOpen Access10 Feb 2024
Nature Communications

Volume: 15, P: 1-9
Hydrogen-substituted graphdiyne-assisted ultrafast sparking synthesis of metastable nanomaterials

A graphdiyne-assisted ultrafast sparking synthesis platform is developed to synthesize a group of metastable nanomaterials, including single-atom materials, high-entropy alloys and high-entropy oxides.

Xueli Zheng
Xin Gao
Yi Cui
Research30 Dec 2022
Nature Nanotechnology

Volume: 18, P: 153-159
Coloured low-emissivity films for building envelopes for year-round energy savings

The building envelope is the interface between a building and its surrounding environment, and has a substantial impact on energy efficiency and aesthetic appeal. Here the authors present a coloured low-emissivity film design that could work year-round to save energy.

Yucan Peng
Lingling Fan
Yi Cui
Research23 Dec 2021
Nature Sustainability

Volume: 5, P: 339-347
Stabilizing lithium-metal electrodes with polymer coatings

The instability of lithium metal hinders the commercialization of lithium-metal batteries. This Review explores polymer coatings as a promising solution, summarizing key design principles, effective coatings and future interface strategies.

Zhuojun Huang
Hao Lyu
Zhenan Bao
Reviews14 May 2025
Nature Energy

Volume: 10, P: 811-823

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Hydrotrope-enabled high concentration aqueous electrolytes for reversible and sustainable iron metal anodes

In situ formation of liquid crystal interphase in electrolytes with soft templating effects for aqueous dual-electrode-free batteries

High-entropy electrolytes for practical lithium metal batteries

Solvation-property relationship of lithium-sulphur battery electrolytes

Hydrogen-substituted graphdiyne-assisted ultrafast sparking synthesis of metastable nanomaterials

Coloured low-emissivity films for building envelopes for year-round energy savings

Stabilizing lithium-metal electrodes with polymer coatings

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