Emerging Molten Salts Based Electrochemical Energy Technologies

YU, Yu; ZHANG, Yuhan; WANG, Han; CHEN, George Z.

doi:10.5796/electrochemistry.24-69009

Electrochemistry

2024

DOI: 10.5796/electrochemistry.24-69009

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Emerging Molten Salts Based Electrochemical Energy Technologies

Yu YU,

Yuhan ZHANG,

Han WANG

et al.

Abstract: Molten salts of inorganic nature are excellent reaction media for various research and industrial uses. Their applications in energy technologies are also wide, including, but not limited to, thermal, nuclear, and electrochemical processes and their combinations. This review aims to capture and analyze selected innovations and developments in recent past, with a specific focus on electrochemical energy storage (EES) technologies. Additionally, it seeks to clarify some fundamental concepts in EES and address pr… Show more

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“…"Electrowinning of Aluminium. Challenges and Possibilities for Reducing the Carbon Footprint", 5 "Emerging Molten Salts Based Electrochemical Energy Technologies", 6 "In-Situ Raman Spectroscopic Analysis of Factors Improving Discharge Rate Capability of Na-Ion Batteries with FSA-Based Ionic Liquids", 7 "Lanthanide Silicide Formation on Si Electrode in LiCl-KCl Melt for Immobilization of Chloride Waste in Pyroprocessing of Nuclear Fuels". 8…”

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Preface for the 69th Special Feature — “Frontiers of Molten Salts and Ionic Liquids”

NOHIRA,

KATAYAMA,

GOTO

et al. 2024

Electrochemistry

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The 69th special feature, titled "Frontiers of Molten Salts and Ionic Liquids," will focus on the recent progress in the field of molten salts and ionic liquids. Molten salts include conventional high-temperature molten salts and room-temperature molten salts (more commonly referred to as ionic liquids), as well as molten metals, molten glasses, and molten hydrates in the broadest sense. In recent years, chemical and electrochemical reactions using molten salts and ionic liquids have become increasingly important for the realization of a carbon-neutral society.Major recent applications include storage batteries, green smelting, recycling, CO2 utilization, hydrogen production, and nuclear fuel reprocessing. In this special feature, readers will see how electrochemical processes in molten salts and ionic liquids hold promise for realizing a carbon-neutral society in the future.

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mentioning

confidence: 99%

Preface for the 69th Special Feature — “Frontiers of Molten Salts and Ionic Liquids”

NOHIRA,

KATAYAMA,

GOTO

et al. 2024

Electrochemistry

View full text Add to dashboard Cite

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Redox Materials for Electrochemical Capacitors

CHIKU,

ABDOLLAHIFAR,

BROUSSE

et al. 2024

Electrochemistry

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Electrochemical capacitors are known for their high power density and cyclability, and various redox reactions can be utilized to improve their energy density. A great variety of redox materials have been investigated recently for use in electrochemical capacitors, not only transition metal oxides, which have been studied for many years. In this review, we provide a comprehensive explanation of redox materials for electrochemical capacitors. Manganese oxides and ruthenium oxides, which are typical metal oxides exhibiting pseudocapacitance, are first discussed. Nickel oxides used in hybrid capacitors are also covered. Various 0D and 2D nanomaterials are highlighted. Pseudo-capacitance using nanosized complex materials and metal-organic frameworks is also presented. Furthermore, electrolyte systems that exhibit redox characteristics for electrochemical capacitors are also reviewed.

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Emerging Molten Salts Based Electrochemical Energy Technologies

Cited by 2 publications

References 102 publications

Preface for the 69th Special Feature — “Frontiers of Molten Salts and Ionic Liquids”

Preface for the 69th Special Feature — “Frontiers of Molten Salts and Ionic Liquids”

Redox Materials for Electrochemical Capacitors

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