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The advancement of green energy batteries as alternative energy sources is crucial for addressing the issues posed by hazardous chemicals and their disposal, thereby mitigating environmental damage caused by direct or indirect impacts of pollution. Recently, novel Earth Battery Systems (EBS) have been investigated, utilizing various types of soils, compost, and electrodes, with water as a fixed electrolyte. In this study, EBS are characterized using multiple techniques, including Linear Sweep Voltammetry (LSV) and Electrochemical Impedance Spectroscopy (EIS). Our findings reveal that, compared to soil-based earth batteries - which exhibit high impedance values, the open-circuit voltage (Voc) and short-circuit current (Isc) are significantly enhanced in vermi-compost-based earth batteries fabricated using steel-201 as the anode and graphite as the cathode. Furthermore, the critical role of organic matter in promoting ion transport and enhancing the system's overall efficiency is demonstrated through Cyclic Voltammetry (CV) and Ionic conductivity analysis. To ensure the sustainability of electrodes within the earth battery, corrosion studies are conducted using Tafel analysis. The results indicate that electrode corrosion can be effectively controlled by the strategic selection of corrosion inhibitors. Thus, this work lays the foundation for developing efficient, durable, and environmentally friendly EBS systems using soil and compost.

来源平台：APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING