Aims and Scope
The Journal of Advanced Electrochemical Storage (JAES) aims to accelerate scientific discovery and technological innovation in the rapidly evolving field of electrochemical energy storage. JAES welcomes submissions from across disciplines, including chemistry, materials science, physics, electrical engineering, and environmental science, with the goal of facilitating deep, cross-cutting advancements.
The scope of the journal includes, but is not limited to:
- Fundamental electrochemistry underlying energy storage mechanisms and redox processes.
- Advanced materials design and synthesis for batteries, supercapacitors, and hybrid systems.
- Innovative electrodes and electrolytes with superior stability, conductivity, and energy/power density.
- System-level design and optimization, targeting enhanced performance, safety, and sustainability.
- Emerging technologies, including solid-state batteries, redox flow batteries, sodium-ion, magnesium-ion, and other beyond-lithium systems.
- In-situ and operando characterization techniques, elucidating structure-property-performance relationships at various scales.
- Modeling and simulation efforts to predict behavior and accelerate the development of new storage architectures.
- Integration of energy storage systems with renewable energy sources, electric grids, and portable/wearable devices.
- Lifecycle analysis, sustainability, and end-of-life recycling strategies for energy storage devices.
By publishing transformative research and fostering interdisciplinary exchange, JAES seeks to be a leading voice in the global transition to sustainable and resilient energy systems.