This technology relates to tellurium nanotubes, a method for manufacturing the same, and an aqueous battery comprising the same. In particular, it is a technology designed to enhance the performance, structural stability, and application efficiency of battery materials and electrode designs based on high stability and electrical capacity.
Conventionally, conventional electrode active materials used in water-based batteries suffered from low theoretical capacity issues during rechargeable processes, which 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 realizing an electrode active material comprising tellurium nanotubes, wherein the tellurium nanotubes formed by the directional stacking of tellurium atoms are applied as a core means to an electrode active material comprising tellurium nanotubes. Accordingly, by using tellurium nanotubes as an electrode active material, stability and electrical capacity effects can be expected in an aqueous battery, and stability, reproducibility, and scalability in actual usage environments can be improved through high stability and electrical capacity. Furthermore, it has the potential to be utilized as a high-performance material, device, apparatus, or process technology in related industries; it is advantageous in terms of subsequent commercialization and process expansion, and is also suitable for demonstration deployment.
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