The present technology relates to anode current collector coated with carbon nano tubes for anode aqueous zinc batteries and anode aqueous zinc battery including the same. In particular, the technology is designed to improve the performance, structural stability, and application efficiency of battery materials and electrode designs based on forming a coating layer containing single-walled carbon nano tubes on a copper anode current collector for an aqueous zinc battery.
Conventionally, there was a problem with zinc dendrites on the surface of the anode current collector that caused internal short circuits in the battery, which could lead to performance degradation, process complexity, lack of stability, or limitations on the scope of application.
Accordingly, stability effects of the water-based zinc battery can be expected by preventing the growth of zinc dendrites and promoting uniform zinc deposition, and stability,reproducibility, and scalability in actual usage environments can be improved by forming a coating layer containing single-walled carbon nano tubes on a copper negative electrode current collector for the water-based zinc battery. In addition, it has the effect of being utilized as a high-performance material,device, apparatus, or process technology in related industries, and is advantageous in terms of subsequent commercialization and process expansion, as well as suitable for demonstration deployment.
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