Theoretical Model for Bio-Photon Energy Harvesting and Electrical Energy Storage Using Organic Photochemical Systems

Author(s)	Mr. Himanshu Kamalakant Dwivedi
Country	India
Abstract	Biophotons are ultra-weak light emissions generated by living organisms as a result of metabolic and oxidative biochemical reactions. These emissions, although extremely low in intensity, represent a continuous and naturally occurring source of electromagnetic energy. In this theoretical study, a conceptual model is proposed for the absorption of biophoton energy using organic photoactive materials and its conversion into electrical energy followed by efficient storage. The model employs porphyrin-based absorbers, organic semiconductors, graphene-based charge transport layers, and bio-electrochemical interfaces to facilitate electron transfer. The harvested micro-current is theoretically stored using grapheneenhanced supercapacitors or bio-inspired redox storage systems. Mathematical expressions governing photon absorption, charge generation, electrical output, and storage efficiency are developed. Although the system is not intended for large-scale power generation, it demonstrates potential applicability in selfpowered biosensors, biomedical devices, and future nano-bioelectronic systems.
Keywords	Biophotons, Energy harvesting, Organic semiconductors, Photochemistry, Graphene, Supercapacitors, Bioelectrochemistry
Field	Chemistry
Published In	Volume 7, Issue 6, November-December 2025
Published On	2025-12-17
DOI	https://doi.org/10.36948/ijfmr.2025.v07i06.63655

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