Fig. 2: Electrochemical characterization and crystal structure evolution of NMT-10 electrode prepared with the aqueous-based binder in half cells. | Nature Communications

Fig. 2: Electrochemical characterization and crystal structure evolution of NMT-10 electrode prepared with the aqueous-based binder in half cells.

From: Design principles of practical industrial-scale layered oxide cathodes with air/water stability for sustainable sodium-ion batteries

Fig. 2: Electrochemical characterization and crystal structure evolution of NMT-10 electrode prepared with the aqueous-based binder in half cells.

a The GCD curves of W-NMT2 and W-NMT10 measured at different voltage ranges. b Cycle performance at 1ā€‰Aā€‰gāˆ’1 within 2.0-4.0ā€‰V. The capacity retention after 600 cycles was calculated with respect to the 46th cycle, following the rate capability test. c, d Evolution of lattice parameters a, c, volumes, and lattice strain calculation of W-NMT10 electrode at (c) 2.0-4.0ā€‰V and (d) 1.5-4.3ā€‰V. Comparison between FAULTS fitting and XRD experimental results of the W-NMT10 electrode at (e) 2.0-4.0ā€‰V and (f) 1.5-4.3ā€‰V.

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