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Materials 2022, 15, 6231 408, 374, 348, 321, and 318 mAh·g−1, respectively (Figure 3e), which were considerably greater than those of Ga2Te3–TiO2–C(20%) and Ga2Te3–TiO2–C(30%). Surprisingly, even at 10 A·g−1, Ga2Te3–TiO2–C(10%) had a CR of up to 96% (Figure 3f). Additionally, Ga2Te3– TiO2–C(10%) demonstrated a high rate performance when the discharge rate was reduced from 10 A·g−1 to 0.1 A·g−1, resulting in high CR (99.3%). 8 of 15 Figure3.EllecttrochemiiccallpeerrffoorrmaanncceessooffGGaa2TTe3e–T–iTOiO2–C–CcocmompopsoitseistefsorfoSrIBSIsB:s(a:)(aG)CGDCpDropfriolefisleosf 232 Ga2Te3–TiO2–C(10%) at 100 mA·g−1; (b)−c1ycling performances of composite at 100 mA·g−1 and (c) 5−001 of Ga2Te3–TiO2–C(10%) at 100 mA·g ; (b) cycling performances of composite at 100 mA·g mA·g−1;(d)CVcu−rv1esofGa2Te3–TiO2–C(10%);(e)ratecapabilitiesofGa2Te3–TiO2–Ccomposites;(f) and (c) 500 mA·g ; (d) CV curves of Ga2Te3–TiO2–C(10%); (e) rate capabilities of Ga2Te3–TiO2–C capacity retention of Ga2Te3–TiO2–C composites from 0.1 to 10 A·g−1. −1 composites; (f) capacity retention of Ga2Te3–TiO2–C composites from 0.1 to 10 A·g .PDF Image | Ga2Te3-Based Anodes for Sodium-Ion Batteries
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