Modeling of Ion Agglomeration in Magnesium Electrolytes and its Impacts on Battery Performance
The model presented in this article provides basis for the theoretical analysis and optimization of magnesium electro...
Multi‐Electron Reactions Enabled by Anion‐Based Redox Chemistry for High‐Energy Multivalent Rechargeable Batteries
It demonstrated a reversible anionic redox chemistry of VS4‐based cathodes for multivalent batteries. Ex situ and...
Effect of Crystal Structure and Morphology on Na3V2(PO4)2F3 Performances for Na‐Ion Batteries
It demonstrates a facile strategic synthesis approach to tailor the crystal structure and morphology of NVPF. Learn m...
Autonomous Discovery of Materials for Intercalation Electrodes
In this work, we design and implement a workflow, in the framework of Density Functional Theory, which autonomously i...
How solution chemistry affects the electrochemical behavior of cathodes for Mg batteries, a classical electroanalytical study
Study of Chevrel phase electrodes in two electrolyte solutions which are important for secondary Mg batteries. Learn ...
Insights into the electrochemical processes of rechargeable magnesium–sulfur batteries with a new cathode design
The present study shows the electrochemical performance of a room-temperature magnesium/sulfur (Mg/S) battery with a ...
Towards stable and efficient electrolytes for room-temperature rechargeable calcium batteries
Battery systems based on multivalent metals such as magnesium (Mg) and calcium (Ca) have attracted substantial intere...
Modulation, Characterization, and Engineering of Advanced Materials for Electrochemical Energy Storage Applications: MoO3/V2O5 Bilayer Model System
The study clearly shows that the physical and electrochemical properties of each layer in a bilayer configuration are...