The growing demand of advanced electrochemical energy storage devices for various
applications, including portable electronic products, electric vehicles, and large-scale …

The increasing demands for the penetration of renewable energy into the grid urgently call
for low-cost and large-scale energy storage technologies. With an intrinsic dendrite-free …

Liquid metal batteries (LMBs) employ liquid metal as electrodes and inorganic molten salt as
electrolytes, which circumvent the capacity degradation mechanism inherent in conventional …

Although Prussian blue analogues are the promising candidate cathode materials for the Na‐
ion batteries for the grid storage due to 3D open‐framework structure and large interstitial …

Liquid metal batteries (LMBs) are alternatives to conventional lithium-ion batteries due to
their specific benefits including high current density and long cycle life. Accurate state of …

Sodium (Na) metal has been considered as promising anode materials for next generation
high-energy-density Na-based batteries due to its high theoretical capacity, abundant …

The electrochemical performance of liquid metal batteries (LMBs) mainly relies on the
rational design of electrode materials. Nevertheless, the traditional ways of optimizing …

Liquid metal batteries (LMBs) are promising candidates for grid‐scale energy storage due to
their exceptional kinetics, scalability, and long lifespan derived from the distinctive three …

Multi-cationic molten chloride salt mixtures such as LiCl–KCl–NaCl are promising molten
salt electrolytes for sodium liquid metal batteries (Na-LMBs). In this work, the melting …

As one of the most potent battery technology, liquid metal battery (LMB) plays an important
role in addressing the requirement of grid energy storage. However, up to now, few attention …