Integrating Quantum Biological Processes and Biochar for Sustainable Innovations in Energy, Chemistry, and Sensing
DOI:
https://doi.org/10.26821/IJSRC.12.10.2024.121012Keywords:
Quantum Biology, Quantum Coherence, Quantum Tunneling, Radical Pair Mechanism, Biochar Integration, Sustainable Technology, Renewable Energy, AI-Driven Insights, Green Chemistry, Quantum SensingAbstract
This paper presents a comprehensive exploration of quantum biological processes, focusing on the roles of quantum coherence in photosynthesis, tunneling in enzyme function, and the radical pair mechanism in animal navigation. Utilizing AI-driven simulations, this study delves into how these quantum effects enable extraordinary efficiencies in nature, with potential applications across renewable energy, green chemistry, and advanced sensing technologies. Additionally, the integration of premium engineered biochar into these quantum processes offers further enhancement, aligning them with sustainability goals such as carbon sequestration and environmental resilience. Through detailed analysis and data insights, this research underlines the transformative potential of quantum biological mechanisms and biochar in developing sustainable technologies. By advancing our understanding of these processes, this study lays the groundwork for innovations that bridge the gap between quantum physics and practical, real-world applications, positioning quantum-enhanced systems as a cornerstone for future technological progress.
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Copyright (c) 2024 Dr Reji Kurien Thomas
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