About this Research Topic
In the vanguard of electrochemical energy storage, the development of advanced aqueous secondary batteries represents a critical frontier in the paradigm of renewable energy technologies. These systems are distinguished by their reliance on catalytic energy conversion mechanisms, which mark a substantial leap forward from conventional energy storage methodologies. By harnessing sophisticated aqueous electrolytes in conjunction with precisely engineered catalysts, these batteries aim to substantially elevate the efficiency, sustainability, and safety benchmarks of current energy storage solutions.
This Research Topic domain not only scrutinizes the intricate electrochemical reactions facilitated by these catalysts but also delves into the optimization of electrode-electrolyte interfaces, thereby pushing the boundaries of what is achievable in rechargeable battery technology. In the realm of sustainable energy storage, advanced aqueous secondary batteries pave the way toward innovative solutions in power systems. These batteries, leveraging catalytic energy conversion, hold the potential to revolutionize the efficiency and eco-friendliness of energy storage technologies. Uniquely designed to optimize the interaction between water-based electrolytes and catalysts, they offer a promising approach to overcoming the limitations of traditional batteries. This exploration into catalytic energy conversion not only aims to enhance the performance metrics of batteries but also focuses on developing safer, more reliable, and environmentally benign energy storage options.
We sincerely welcome high-quality original research articles and review papers associated with this topic. The submissions in the following themes may be preferred, but not limited to:
• Breakthroughs in Long-Life Aqueous Secondary Battery Designs.
• Innovations in Water-Based Battery Technologies for Sustainable Power.
• Exploring Catalysis in Energy Conversion Processes for Advanced Batteries.
• The Future of Energy Storage: A Deep Dive into Aqueous Battery Systems.
• Exploring Material Compatibility in Catalytic Energy Conversion for Advanced Battery Technologies.
• A Comparative Study of Secondary Batteries: Aqueous vs. Non-Aqueous Systems.
• The Role of Catalytic Mechanisms in Enhancing Aqueous Battery Performance.
• Environmental Impacts and Sustainability of Aqueous-Based Batteries.
• Challenges and Solutions in the Scalability of Aqueous Batteries for Industrial Use.
• Aqueous Batteries: A Cornerstone for Renewable Energy Storage Solutions.
• Optimizing Anode Material Selection for Aqueous Secondary Batteries
• The Science of Water: Unlocking New Potentials in Battery Technology through Catalytic Energy Conversion.
This Research Topic domain not only scrutinizes the intricate electrochemical reactions facilitated by these catalysts but also delves into the optimization of electrode-electrolyte interfaces, thereby pushing the boundaries of what is achievable in rechargeable battery technology. In the realm of sustainable energy storage, advanced aqueous secondary batteries pave the way toward innovative solutions in power systems. These batteries, leveraging catalytic energy conversion, hold the potential to revolutionize the efficiency and eco-friendliness of energy storage technologies. Uniquely designed to optimize the interaction between water-based electrolytes and catalysts, they offer a promising approach to overcoming the limitations of traditional batteries. This exploration into catalytic energy conversion not only aims to enhance the performance metrics of batteries but also focuses on developing safer, more reliable, and environmentally benign energy storage options.
We sincerely welcome high-quality original research articles and review papers associated with this topic. The submissions in the following themes may be preferred, but not limited to:
• Breakthroughs in Long-Life Aqueous Secondary Battery Designs.
• Innovations in Water-Based Battery Technologies for Sustainable Power.
• Exploring Catalysis in Energy Conversion Processes for Advanced Batteries.
• The Future of Energy Storage: A Deep Dive into Aqueous Battery Systems.
• Exploring Material Compatibility in Catalytic Energy Conversion for Advanced Battery Technologies.
• A Comparative Study of Secondary Batteries: Aqueous vs. Non-Aqueous Systems.
• The Role of Catalytic Mechanisms in Enhancing Aqueous Battery Performance.
• Environmental Impacts and Sustainability of Aqueous-Based Batteries.
• Challenges and Solutions in the Scalability of Aqueous Batteries for Industrial Use.
• Aqueous Batteries: A Cornerstone for Renewable Energy Storage Solutions.
• Optimizing Anode Material Selection for Aqueous Secondary Batteries
• The Science of Water: Unlocking New Potentials in Battery Technology through Catalytic Energy Conversion.
Keywords: Secondary batteries, Aqueous electrolyte, Catalytic conversion
Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
