This technology relates to a method and device for measuring current in an optical database battery system and can be applied to catalyst and battery analysis. In particular, it is a technology designed to enhance performance, durability, stability, and applicability based on key materials, structures, processes, or device configurations related to the optical data-based current measurement system and the current measurement method utilizing the same.
It aims to address the need for a cost-effective and versatile electrochemical analysis method. Accordingly, this technology proposes a technical concept that utilizes an optical database battery system current measurement device comprising an optical sensor, an LED array, and a power supply as a core means, and implements the use of an optical sensor to measure current without requiring a constant potentiostat.
As a result, it is expected that the efficiency and cost-effectiveness of the electrochemical analysis method will be improved, and reproducibility, scalability, and process suitability in real-world usage environments can be enhanced. Furthermore, it can be utilized as a high-performance material, component, battery, sensor, device, or manufacturing process in related industries, making it advantageous in terms of subsequent commercialization and demonstration deployment.
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