Enabling > 4C Fast Charging of Li-Ion Batteries with Graphite/Hard Carbon Hybrid Anodes to Overcome Energy/Power Density Tradeoffs

Abstract: Li-ion batteries with high energy density and fast-charge capability are required to realize the widespread use of electric vehicles. However, current graphite-anode-based Li-ion batteries are unable to achieve fast charging without adversely impacting battery performance. This is because when graphite anodes are subjected to fast charging conditions, large cell polarizations reduce the accessible capacity and induce Li plating on the anode surface. The formation of metallic Li on the graphite anode surface re… Show more

“…On the other hand, the poor rate performance of graphite anode results from the narrow layer spacing of graphite crystal and the long diffusion distance of lithium ions . Expanded graphite and hard carbon structures were studied to improve the rate performance of graphite. , However, these effects cause a decrease in Coulombic efficiency and were not adopted in practice …”

“…21 Expanded graphite and hard carbon structures were studied to improve the rate performance of graphite. 22,23 However, these effects cause a decrease in Coulombic efficiency and were not adopted in practice. 24 Solid electrolyte interphase (SEI) is a key factor for rate capability of graphite anode and is essential to the rate performance of LIBs, which can be regulated by the electrolyte compositions.…”

Constructing a Highly Robust Interface Film for Enhancing Rate Performance of Graphite Anode via a Novel Electrolyte Additive

“…On the other hand, the poor rate performance of graphite anode results from the narrow layer spacing of graphite crystal and the long diffusion distance of lithium ions . Expanded graphite and hard carbon structures were studied to improve the rate performance of graphite. , However, these effects cause a decrease in Coulombic efficiency and were not adopted in practice …”

“…21 Expanded graphite and hard carbon structures were studied to improve the rate performance of graphite. 22,23 However, these effects cause a decrease in Coulombic efficiency and were not adopted in practice. 24 Solid electrolyte interphase (SEI) is a key factor for rate capability of graphite anode and is essential to the rate performance of LIBs, which can be regulated by the electrolyte compositions.…”

Constructing a Highly Robust Interface Film for Enhancing Rate Performance of Graphite Anode via a Novel Electrolyte Additive