Özet:

Nowadays, alternative energy production processes, efficient storage of generated energy, and the production of energy resources from environmentally friendly materials are important research topics. For this purpose, conductive polymers, biomass additives such as mushroom and transition metal oxides (GMO) as electrode materials were investigated electrochemically towards supercapacitors used in energy storage. While preparing the electrode, lithium tetraborate (LTB) was preferred as the doping salt. Electrodes were prepared by adding molybdenum oxide (MoO3), Pluronic®F127, and mushroom to LTB, respectively. The electrochemical properties of the prepared electrodes were investigated considering the current density variation in the applied potential range, and the findings obtained showed that LTB-MoO3-F127-Mushroom/ITO electrode increased capacitive effect approximately 3.5 times compared to LTB/ITO electrode, and electrode cycle life was preserved at 86% (anodic) and 87% (cathodic) rates after 20 cycles. In electrochemical studies, it has been shown that the capacitive effect of LTB-MoO3-F127-Mushroom/ITO electrode is increased approximately 3.5 times compared to LTB/ITO electrode and that the electrode cycle life is preserved at 86% (anodic) and 87% (cathodic) rates after 20 cycles. In this study, a low cost, high performance, and environmentally friendly alternative technology is presented for super capacitor applications. It has been shown that the developed mushroom-carbon-based anode technology can replace graphite anodes by optimizing GMO, conductive polymer, and mushroom doping.

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