2024 Help me understand this report
Boosting the Sodium-Ion Transport and Surface Pseudocapacitance of a SnO2 Nanoflower at a High Mass Loading Level for High Areal Capacity and Fast Sodium-Ion Storage
Abstract: The exploitation of electrode materials with high areal capacity and rate performance under high mass loading is critical for the practical application of sodium-ion batteries (SIBs), and 3D nanocomposite electrode materials based on nanoelectrode materials and 3D carbon-based material frameworks have shown extraordinary promise. However, the areal capacity and rate performance are unsatisfactory because of the low utilization efficiency and sluggish Na + kinetics of active Na + storage materials. To address t…
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