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Sodium Storage Mechanism
In article number 2301415, Jing Hou, Nadezda V. Tarakina, and co‐workers reveal nanoscale insights into Na‐storage behaviour in carbonaceous porous materials within a commercial liquid electrolyte, through the combination of in‐operando investigations in a liquid‐cell transmission electron microscopy microbattery set‐up and ex‐situ electron microscopy characterizations of...
Carbonaceous materials are promising sodium‐ion battery anodes. Improving their performance requires a detailed understanding of the ion transport in these materials, some important aspects of which are still under debate. In this work, nitrogen‐doped porous hollow carbon spheres (N‐PHCSs) are employed as a model system for operando analysis of sodium storage behavior in a commercial liquid electrolyte...
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