Chiara Busà scite author profile

With the ever-increasing demand for energy, one of the biggest challenges with Lithium ion batteries (LIB) is to enable the fast charging capability for automotive electrification. However, graphite, the most common anode material for LIB cannot fully accommodate fast charging and provokes safety issues such as lithium plating and subsequent dendrite growth. This could lead to an internal short circuit, which can result in a fire in the battery. In this work, a systematic study has been performed with various concentrations of KPF6 salt addition to electrolyte in order to understand the effect of salt additives on dendritic growth in graphite anodes. K ions easily deposit on defect sites present on graphite particles, confirmed by secondary electron microscopy (SEM) equipped with energy dispersive X-ray spectroscopy detector (EDX). This prevents the dendrite formation by restricting the incoming Li ions even at 2C-rate (corresponding to 5.52mA) cycling, which was observed by SEM imaging. After close inspection, it concluded that, the KPF6 modified electrolyte is very much beneficial in inhibiting dendritic morphology without forming SEI products (confirmed by X-ray photoelectron spectroscopy; XPS). Moreover, there were no observable adverse effects on the electrochemical properties, such as capacity, ionic conductivity and resistance of the cell.

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Chiara Busà

The effects of ambient storage conditions on the structural and electrochemical properties of NMC-811 cathodes for Li-ion batteries

Tunable superapolar Lotus-to-Rose hierarchical nanosurfaces via vertical carbon nanotubes driven electrohydrodynamic lithography

Synergistic effect of two-dimensional additives on carbon nanotube film electrodes towards high-performance all-solid-state flexible supercapacitors

Prevention of Dendrites on Graphite By K⁺ Cation Addition to Electrolyte

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Chiara Busà

The effects of ambient storage conditions on the structural and electrochemical properties of NMC-811 cathodes for Li-ion batteries

Tunable superapolar Lotus-to-Rose hierarchical nanosurfaces via vertical carbon nanotubes driven electrohydrodynamic lithography

Synergistic effect of two-dimensional additives on carbon nanotube film electrodes towards high-performance all-solid-state flexible supercapacitors

Prevention of Dendrites on Graphite By K+ Cation Addition to Electrolyte

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Prevention of Dendrites on Graphite By K⁺ Cation Addition to Electrolyte