fig10

Reaction mechanisms, key challenges, and future prospects of zinc-ion/magnesium-based batteries: from fundamental researches to electrode/electrolyte engineering

Figure 10. (A) Cycling performance of bare Zn and ZnCo symmetric cells. (B) SEM images of ZnCo and bare Zn after 50 cycles. (C) Cycling performance of ZnFe batteries. (D) SEM images of ZnFe and after 50 cycles at 1.77 mA cm-2 for 0.44 mAh cm-2. (A-D) Reprinted with permission from[111]. Copyright 2024, Elsevier; (E) Galvanostatic cycling performances of symmetrical cells with Zn@NSIC and bare Zn anodes at 10 mA cm-2. (F) Tilted SEM images of bare Zn anode and Zn@NSI Canode after cycling in symmetrical cells. (G) Cycling performances at a current density of 5 A g-1. (H) Cycling performances of large-sized full cells at 1 A g-1. (E-H) Reprinted with permission from[112]. Copyright 2025, Wiley. SEM: Scanning electron microscopy.

Energy Materials
ISSN 2770-5900 (Online)
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