1/22/2024 0 Comments Download c&c ta![]() This work may provide a reliable strategy for designing dendrite-free, high-performance, zinc host materials with highly wetting interfaces. ![]() Moreover, the assembled full-cell with foam as the anode and α-MnO2 nanowire as the cathode delivers a stable discharge specific capacity of 181.8 mAh g-1 at 2 A g-1 over 3000 cycles. As a result, the Cu foam as a well-wettable and zincophilic host shows a mosslike dendrite-free plating/stripping process with a small nucleation overpotential (19.5 mV) and an ultra-stable lifespan of 3000 h at 1 mA cm-2 and 1 mAh cm-2 in zinc symmetrical batteries. ![]() When you open this link the following page will appear. It is found that the Cu foam host can not only offer extra zincophilic nucleation sites by increasing surface area, but also guide a uniform ion distribution due to capillary-like effect induced by the arrangement of numerous copper nanowires. Firstly, you must download Turbo C++ from the link: Turbo.C.3.2. Herein, nanowire-decorated Cu foam (Cu foam) with good wettability and zinc affinity was fabricated to enhance the reversibility of electroplating/electrostripping. Designing three-dimensional host material as the substrate is an effective approach to enhance the highly reversible plating/stripping behavior of Zn anode. However, the practical application of Zn anode is still impeded by the growth of dendrites during Zn plating/stripping process. Metallic Zinc (Zn), with high safety, low cost, and environmental friendliness, is deemed as a promising anode for aqueous zinc-ion batteries. ![]()
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