This technology relates to a method for manufacturing high-coupling carbon nanotube current collectors derived from waste polymers for aluminum secondary battery anodes. In particular, it is a technology designed to enhance the performance, structural stability, and application efficiency of battery materials and electrode designs based on the carbon source of the carbon nanotube current collector.
In the case of secondary batteries using conventional carbonate/organic electrolytes, problems with significantly blocked ion transport during the formation of an aluminum oxide layer on the aluminum metal surface could lead to performance degradation, process complexity, lack of stability, or limitations on the scope of application. Accordingly, this technology proposes a technical concept for a method of manufacturing a carbon nanotube current collector for an aluminum secondary battery negative electrode based on waste-poly MR, by applying a configuration including a method of manufacturing a carbon nanotube current collector for an aluminum secondary battery negative electrode as a core means,wherein a waste polypropylene mask is washed with acetone and ethanol, and 5℃/min- is implemented.
Accordingly, performance effects of battery adsorption can be expected, and stability, reproducibility,and scalability in actual usage environments can be improved through the carbon source of the carbon nanotube current collector. 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, and is also suitable for demonstration deployment.
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