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Showing 1–50 of 199 results

  • Aqueous batteries have drawbacks related to their low energy densities. Now, highly concentrated hetero-halogen electrolytes can be used to enable fast multielectron transfer, leading to cost-effective, reversible and high-energy-density aqueous batteries.

    • Vikram Singh
    • Hye Ryung Byon
    News & Views
    Nature Energy
    P: 1-2

  • Phase transitions are detrimental to the cyclability of layered oxide cathodes for next-generation sodium-ion batteries. Now, two complementary studies suggest principles on how to navigate through the vast compositional space for better electrochemical performance.

    • Dylan A. Edelman
    • Donggun Eum
    • William C. Chueh
    News & Views
    Nature Sustainability
    Volume: 7, P: 234-235

  • Scientists encounter pressure to validate their research work, leading to varied benchmarks and methods for performance assessment in the broad energy research field. Interlaboratory studies help highlight discrepancies in reported figures of merit, underscoring the need for standardized protocols, transparent reporting, and detailed analysis for fair comparisons. Here, we discuss this topic, focusing on battery materials.

    • Nella M. Vargas-Barbosa
    Comments & Opinion
    Nature Nanotechnology
    Volume: 19, P: 419-420

  • To date, organic-based redox flow batteries (RFBs) have relatively low open-circuit voltages (OCVs), limiting their commercial viability. Achieving higher OCVs with pH-decoupled RFBs faces challenges due to severe ion crossover, prompting new research that proposes an acid–base regeneration cell to address this limitation.

    • Mike L. Perry
    News & Views
    Nature Energy
    Volume: 9, P: 367-368

  • Non-flammable electrolytes are essential for ensuring the safe operation of sodium-metal batteries; however, challenges arise in applications due to limited stability between the electrolytes and electrodes. Now, an electrolyte engineering approach using salts as a diluent is proposed to achieve both high interfacial stability and improved safety.

    • Heng Zhang
    • Michel Armand
    News & Views
    Nature Energy
    Volume: 9, P: 365-366

  • Surface reconstruction, chemo-mechanical degradation, and interfacial side reactions are major factors limiting the cyclability of Ni-rich cathodes. A strategy based on entropy-assisted epitaxial coating is now shown to effectively mitigate these issues, leading to improved battery performance and promising advances in electrochemical energy storage.

    • Simon Schweidler
    • Torsten Brezesinski
    • Ben Breitung
    News & Views
    Nature Energy
    Volume: 9, P: 240-241

  • Most glass fibre-reinforced plastics (GFRPs) waste currently ends up in either landfills or incineration facilities, resulting in adverse environmental impacts and waste of resources. Now, a flash Joule heating technology can achieve rapid and effective upcycling of GFRPs waste into SiC, a material that has a wide range of applications.

    • Zhedong Liu
    • Yanan Chen
    News & Views
    Nature Sustainability
    Volume: 7, P: 381-382

  • Injecting hydrogen into subsurface environments could provide seasonal energy storage, but understanding of technical feasibility is limited as large-scale demonstrations are scarce. Now, field tests show that hydrogen can be stored and microbially converted to methane in a depleted underground hydrocarbon reservoir.

    • Marc Strous
    News & Views
    Nature Energy
    Volume: 9, P: 238-239

  • The scarcity of raw materials and complex synthesis procedures have impeded the development of electrolytes for Mg and Ca metal batteries. Research now reports a facile synthesis of organoborate electrolytes through cation replacement reactions, offering highly reversible Mg or Ca electrochemistry.

    • Chunmei Ban
    News & Views
    Nature Energy
    Volume: 9, P: 236-237

  • We explore the challenges and opportunities for electrochemical energy storage technologies that harvest active materials from their surroundings. Progress hinges on advances in chemical engineering science related to membrane design; control of mass transport, reaction kinetics and precipitation at electrified interfaces; and regulation of electrocrystallization of metals through substrate design.

    • Shuo Jin
    • Shifeng Hong
    • Lynden A. Archer
    Comments & Opinion
    Nature Chemical Engineering
    Volume: 1, P: 194-197

  • Polymer nanocomposite-based dielectric capacitors are promising candidates for high- power-density energy storage devices. However, they exhibit poor performance at high temperatures. A polymer nanocomposite based on sub-nanosheets shows high energy density at elevated temperatures due to the unique structure, geometry, and high surface area to volume ratio of the nanosheets.

    • Maninderjeet Singh
    • Saurabh Kr Tiwary
    • Alamgir Karim
    News & Views
    Nature Energy
    Volume: 9, P: 113-114

  • An article in Nature Materials uses entropy engineering to fabricate capacitors with high energy density.

    • Charlotte Allard
    Research Highlights
    Nature Reviews Materials
    Volume: 7, P: 500

  • An article in Science demonstrates a Li–air battery with a solid-state electrolyte that achieves an energy density higher than for Li-ion batteries.

    • Charlotte Allard
    Research Highlights
    Nature Reviews Materials
    Volume: 8, P: 145

  • Rechargeable aqueous zinc metal batteries represent a promising solution to the storage of renewable energy on the gigawatt scale. For a standardized set of protocols for their electrochemical performance measurements, we highlight the current common issues and recommend practices for future studies.

    • Xiulei Ji
    • Linda F. Nazar
    Comments & Opinion
    Nature Sustainability
    Volume: 7, P: 98-99

    • Yaoqing Zhang
    Research Highlights
    Nature Nanotechnology
    Volume: 14, P: 730

  • The milestones in rechargeable lithium-ion battery development have been widely reported but the first-hand accounts from inventors have often not been. We aim to bring their personal stories to wider attention with a new article series.

    Editorial
    Nature Energy
    Volume: 6, P: 117

  • Research activities are crucial for the advancement of energy storage technologies. However, not all the research lead to practical innovation. Here the author, focusing on supercapacitor devices, discusses the most challenging aspects to be considered to deliver practical innovation from fundamental research.

    • Sebastian Pohlmann
    Comments & OpinionOpen Access
    Nature Communications
    Volume: 13, P: 1-5

    • Changjun Zhang
    Research Highlights
    Nature Energy
    Volume: 7, P: 906

  • An article in ACS Applied Energy Materials presents recyclable one-dimensional fibre-shaped supercapacitors for powering wearable electronic devices.

    • Giulia Pacchioni
    Research Highlights
    Nature Reviews Materials
    Volume: 7, P: 844

  • The emergence of high-entropy materials has inspired the exploration of novel materials in diverse technologies. In electrochemical energy storage, high-entropy design has shown advantageous impacts on battery materials such as suppressing undesired short-range order, frustrating energy landscape, decreasing volumetric change and reducing the reliance on critical metals. This comment addresses the definition and potential improper use of the term “high entropy” in the context of battery materials design, highlights the unique properties of high-entropy materials in battery applications, and outlines the remaining challenges in the synthesis, characterization, and computational modeling of high-entropy battery materials.

    • Bin Ouyang
    • Yan Zeng
    Comments & OpinionOpen Access
    Nature Communications
    Volume: 15, P: 1-5

    • Changjun Zhang
    Research Highlights
    Nature Energy
    Volume: 5, P: 638

    • Changjun Zhang
    Research Highlights
    Nature Energy
    Volume: 4, P: 819

    • Changjun Zhang
    Research Highlights
    Nature Energy
    Volume: 5, P: 422

    • Changjun Zhang
    Research Highlights
    Nature Energy
    Volume: 3, P: 251

  • Nickel-rich layered cathode materials deliver high energy density but suffer from rapid capacity fading owing to various side reactions at the cathode–electrolyte interface. A proposed near-surface modification of nickel-rich cathode materials increases their cycling stability, enabling the realization of high-energy-density and durability requirements for practical application.

    News & Views
    Nature Energy
    Volume: 9, P: 18-19

    • Changjun Zhang
    Research Highlights
    Nature Energy
    Volume: 6, P: 688