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Unleashing Bioelectric Interfaces for Organic Battery Integration in Future Electric Vehicles

Hassan I. MohamedRamy Riad HusseinTelidevara Naga Pavana MadhuriTursunoy YandashovaGulbahor AshurovaDepartment of Information Technology, Gokaraju Rangaraju Institute of Engineering and Technology,National University of Uzbekistan Named after Mirzo Ulugbek,Tashkent State University of Uzbek Language and Literature Named after Alisher Navoi
2026en
ABI

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However, the current state of the art battery technologies have their problems like low energy density, large charging time, or being harmful to the environment when materials are disposed. Although lithium ion batteries have experienced rapid development, efficient, environmentally friendly and resilient energy storage provides substantial resistance to practical application of EV. Batteries that are currently used in small cars are typically bulky, have high costs for production and recycling, which only furthers the environmental impact of EVs. This paper, therefore, proposes a novel approach to address these shortcomings. we aim to integrate bioelectric interfaces with organic materials to create a new class of flexible, biodegradable and high performance EV batteries. These bioelectric interfaces are drawn from energy systems in biology, and leverage hierarchical assembly of these interfaces at the nanoscale to enable ultra fast (nanosecond) energy transfer, and utilize organic materials to potentially enable self repair capabilities and adaptability to changes in the energy demand. Additionally, this solution also highlights the use of biodegradable and bio compatible materials that can be used instead of the traditional battery systems. The fusion of these organic and bioelectric components in a system level promises to improve the ratio of energy density to volume and mass and also to increase charge/ discharge efficiency and reduce environmental impact of manufacturing and disposal of batteries. Early results from the experiments hints that not only do they help extend battery life, but also are faster, at transferring energy meaning this could be a game changing approach for the EV industry. To achieving a scalable, sustainable, and viable solution for integrating bioelectric interfaces with organic batteries to produce low cost, sustainable, and effective batteries for EVs as a promising component towards a greener and efficient future in electric mobility.

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