This technology relates to an aqueous zinc battery containing a succinimide derivative as an electrolyte additive. In particular, it is a technology designed to improve the performance, structural stability, and application efficiency of battery materials and electrode designs based on the use of a succinimide derivative as an additive in an aqueous electrolyte to control zinc deposition and suppress electrolysis.
Conventionally, problems with non-uniform zinc dendrite formation in zinc batteries could lead to performance degradation,process complexity, lack of stability, or limitations on the scope of application. Accordingly, this technology applies a configuration comprising an aqueous zinc secondary battery having an ion-conducting separator, a cathode,and an anode, along with an aqueous electrolyte containing water, a zinc salt,and a succinimide derivative, as a core means, comprising: a negative electrode; a positive electrode spaced apart from the negative electrode and comprising a metal oxide as a positive active material; We propose a technical concept for implementing a separator interposed between the above-mentioned cathode and anode.
Accordingly, performance effects of the zinc battery can be expected by suppressing zinc dendrite growth, controlling electrolysis, and preventing corrosion. Furthermore, stability,reproducibility, and scalability in actual operating environments can be enhanced through the use of succinimide derivatives as additives in the aqueous electrolyte to control zinc deposition and suppress electrolysis. Additionally,this technology can be utilized as a high-performance material, device,apparatus, or process technology in related industries, and it is advantageous in terms of subsequent commercialization and process expansion, as well as suitable for demonstration deployment.
Key Features:
N/A
