Search results
1 cze 2021 · In this study, a Sn–7Mg alloy foil anode, a magnesium silicate electrolyte, and a Sn–40Cu alloy film cathode were fabricated and incorporated into an all-solid-state battery; then, the influence of operating temperature on the charge–discharge cycle characteristics was investigated.
- View Article
The thermal stability of the neat lithium...
- View Article
13 mar 2020 · Here, by encapsulating nanoparticles of metallic tin in mechanically robust graphene tubes, we show tin anodes with high volumetric and gravimetric capacities, high rate performance, and long...
21 wrz 2023 · Li-ion battery application is one of the energy storage properties of TiN and TiC. Kim et al. 33 worked on Si/TiN nanocomposites with 33.3 Mol Si by using high energy mechanical milling method and...
26 mar 2020 · In this work, a comparative study of the implementation of SnO 2 and TiO 2 nanoparticles in combination with carbon-based conductive matrices is carried out in order to enhance battery...
We study the characteristics of tin sulfide (SnS) and tin phosphate (Sn 4 P 3) as negative electrodes for rechargeable Li and Na ion batteries by first-principles calculations. The electrode reaction formulae during the discharge processes are fully revealed by the energy analyses of ternary A–Sn–B (A = Li, Na; B = S, P) phase diagrams.
1 paź 2020 · The cycling life of a lithium-ion battery is the number of full charge–discharge cycles to reach 80% of the battery capacity. It is mainly affected by charge/discharge current density, voltage ranges and temperature [ 56 ].
This thesis aims to provide insight into the fundamental electrochemical processes taking place when cycling SnO2in lithium-ion batteries (LIBs). Special attention was paid to the partial reversibility of the tin oxide conversion reaction and how to enhance its reversibility.
