Quick Links

International Journal of Advanced Innovative Technology in Engineering (IJAITE)


Study on Next Generation of Electric Vehicles

Anup A. Jagshettiwar, Ashish P. Ogale, Bhagyashree Sarode, Anshul G. Lode, Sanket S. Raut

Abstract :

The future of electric vehicles (EVs)promises a transformative shift towards sustainable and efficient transportation. With ongoing advancements in battery technology, charging infrastructure, and manufacturing processes, EVs are poised to become increasingly accessible and affordable. This evolution not only addresses environmental concerns by reducing carbon emissions but also stimulates innovation in the automotive industry. The integration of smart technologies, such as autonomous driving and interconnected systems, further amplifies the potential for a seamless and eco-friendly transportation future. As the global commitment to de- carbonization intensifies, the trajectory of electric vehicles signifies a cleaner, greener, and more intelligent future for mobility.

Keywords :

Thin film, solar technology, efficient, flexible,

Full Text :

Download PDF

DOI : 10.5281/zenodo.15362848

Cite this paper :

References :

[1] S. Chakrabarti and D. Das, "Review of solar PV integration with energy storage systems for India," *Renewable and Sustainable Energy Reviews*, 2017. [2] Y. J. Lee, Y. J. Choi, J. H. Kim, *et al*., "Recent advances in flexible solar cells for electric vehicles," *Energy Conversion and Management*, 2021. [3] Y. Zhang and T. Wang, "Flexible solar cells for energy harvesting and power generation on electric vehicles," 2019. [4] A. Sarangi and N. P. Padhy, "Role of solar energy in Indian electric vehicle ecosystem: Opportunities and challenges," 2020. [5] E. Bellini, "Flexible Solar Panel for Vehicle Integrated Applications," 2021. [6] X. Liang and C. Ge, "Flexible Perovskite Solar Cells: Progress and Prospects," 2021. [7] L.-Y. Lin and K.-C. Ho, "Dye Sensitized Solar Cells," 2018. [8] D. Luo and H.-Y. Yu, "Review and Perspective of Materials for Flexible Solar Cells," 2021. [9] E. Spooner, "Organic Photovoltaics: An Introduction." [10] L. Calderone, "Dye Sensitized Solar Cells Is the Future of Solar," 2020. [11] K. Sharma, V. Sharma, and S. S. Sharma, "Dye Sensitized Solar Cells: Fundamentals and Current Status," 2018. [12] D. Hao, L. Qi, and A. Azam, "Solar Energy Harvesting Technologies for PV Self-Powered Applications: A Comprehensive Review," 2022. [13] A. S. R. Bati and Y. L. Zhong, "Next-Generation Applications for Integrated Perovskite Solar Cells," 2023. [14] O. Planas, "What are Thin Film Solar Cells? Types and Description," 2019. [15] R. Ranjan, "Researchers Claim to Have Achieved 25% Cell Efficiency Using Thin-Film Solar Cell," 2020. [16] K. A. I. Sailaja and V. M. Varatharaju, "Design and Implementation of Flexible Solar Panel for Electric Vehicles," 2022. [17] Moulin, "Integration of Solar with Electric Vehicles," 2018. [18] R. Verduci and V. Romano, "Solar Energy in Space Applications: Review and Technology Perspectives," 2022. [19] A. Gabash, "Review of Battery Storage and Power Electronic Systems in Flexible AROPF Frameworks," 2023. [20] J.-S. Kim and D.-C. Lee, "Optimization for Maximum Specific Energy Density of a Lithium-Ion Battery Using Progressive Quadratic Response Surface Method and Design of Experiments," 2020. [21] M. Shafiullah and S. D. Ahmed, "Grid Integration Challenges and Solution Strategies for Solar PV Systems: A Review," 2021.