Battery electric vehicles (BEVs) are advocated due to their environmental benign
characteristic. However, the long charging time and the degradation caused by fast charging …

The formation of dendritic microstructures during the charging period of the battery is a
critical phenomenon, hampering the sustainable utilization of energy-dense materials, such …

The formation of dendrites on lithium electrodes presents safety and cycling challenges for
the development of high-performance, rechargeable lithium metal batteries. While a …

The dendritic growth in rechargeable batteries is one of the hurdles for the utilization of high
energy-density elements, such as alkaline metals, as the electrode. Herein we explore the …

We quantitatively investigate the role of voltage fluctuation in terms of different waveforms on
the electrodeposition dynamics and morphology for varying electrolyte concentrations …

The ramified and stochastic evolution of dendritic microstructures has been a major issue on
the safety and longevity of rechargeable batteries, particularly for the utilization metallic …

The formation of highly-branched dendrites during the charging period of the rechargeable
batteries is a critical safety drawback, causing capacity decay in particular during utilization …

The catastrophic fracture of the ceramics limits their utilization in industrial applications.
Particularly despite the wide potential of the Tantalum carbide (TaC) it is prone to sudden …

Electrochemical systems possess a considerable part of modern technologies, such as the
operation of rechargeable batteries and the fabrication of electronic components, which are …

The accumulation pattern in the dendritic microstructures in rechargeable batteries has a
deterministic impact on their state of health and longevity. The dendrites either can cause …