Abbassi A. NanoRevolution. Unveiling the Future of Energy...2025

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Abbassi A. NanoRevolution. Unveiling the Future of Energy...2025

Textbook in PDF format As the global push toward energy accelerates, NanoRevolution: Unveiling the Future of Energy through Advanced Materials and Digital Technologies brings forward a powerful vision of how advanced materials and digital technologies are redefining energy solutions. This comprehensive resource navigates the frontiers of nanotechnology, artificial intelligence (AI), and IoT applications within the renewable energy sector, presenting innovative strategies that address today’s most pressing energy challenges. Across 15 chapters, NanoRevolution covers transformative advancements in photovoltaic and energy storage technologies. It explores the application of density functional theory (DFT) in developing high-efficiency, lead-free solar cells, new methodologies for enhancing MXenes-based materials, and emerging AI-powered solutions for energy optimization and predictive maintenance. The book also examines IoT-driven innovations in photovoltaic systems and provides a high-level overview of blockchain's potential in secure energy transactions. This book is an invaluable guide for researchers, engineers, and industry professionals focused on next-generation energy solutions, offering both theoretical depth and practical applications to drive progress toward a sustainable energy future. Artifcial Intelligence Applications in Energy Density Functional Theory for 2D Anode Materials Advancements in Solar Cell Technology: Integrating DFT and SLME Methods for Lead-Free Perovskite Development Modeling Structural, Electronic, and Optical Properties of Monolayer MXenes M4C3 (M = Nb, Ta) Based on DFT Accelerated Discovery of High-Effciency Solar-Cell Materials: Integrating Density Functional Theory and Machine Learning Integrating Nanomaterials and Advanced Nanoscale Approaches for Boosting the Performance of Next-Generation Photovoltaic Devices Based on III-Nitrides Materials New Approaches for Developing Effcient Eco-Friendly Lead-Free Perovskite Thin-Film Solar Cells: Modeling and Design Methodology Magnetic Spinel for Smart Applications Advanced Nanomaterials and Characterization Techniques for Photovoltaic Applications Exploring the Potential of TiO2 Thin Films for Photovoltaic Use: Mesoporous and Compact Layers Coating Theoretical Study of the Optical, Structural and Electronic Properties of Germanium Dioxide (GeO2) Doped with Ti and Nb by the DFT Method with mBJ Correction Internet of Things for Photovoltaic Solar Energy Systems IoT in Energy Systems: Innovations, Challenges, and Future Outlooks Machine Learning-User Association Approach for Energy-Effcient and Mitigation Interference in HetNets Legal and Regulatory Challenges in Implementing Blockchain-Enabled Renewable Energy Systems