1、1 2 3 Table of Contents Executive Summary.5 1.Battery Technology and Energy Storage Systems.7 1.1 Cell Technology.7 1.2 Battery Systems.11 Future Implications and Trajectories.14 2.Power Electronics&Control Developments.15 2.1 Drive Systems Innovation.15 2.2 Power Management Innovation.16 Future Imp

2、lications.18 3.Charging Infrastructure.19 3.1 Charging Technology.19 3.2 Power Management in EV Charging.22 Future Implications and Trajectory.25 4.Vehicle Systems Integration.26 4.1 Vehicle Architecture.26 4.2 Vehicle Control.28 5.Material Science and Engineering.30 5.1 Advanced Materials.30 5.2 Ma

3、terial Characterization.31 Future Trajectory.33 6.Smart Systems&Integration.34 6.1 Intelligent Control.34 6.2 System Integration.35 Future Trajectory.37 7.Advancements in EV Technology:Benchmark Parameters.38 7.1 Breakthroughs in EV Technology.42 7.2 EV technology Research&Patents-India .43 7.3 EV t

4、echnology Research&Patents-Global Based.50 8.Indias EV Market Dynamics:A 2024-2030 Perspective.54 8.1 Indias Battery Manufacturing Ecosystem:Mapping Key Players,Progress,and Partnerships.56 8.1.1 Major Players.57 8.1.2 Budding Startups.58 4 8.1.3 Industry Partnerships.60 8.1.4 Electric Mobolity:Indi

5、an Research.62 9.Future Research Priorities:Emerging Areas.69 10.Battery-as-a-Service.75 11.Future Outlook.78 5 Executive Summary Electric Vehicles(EVs)have emerged as a cornerstone of the global shift towards sustainable transportation.Rapid developments in battery chemistry,power electronics,charg

6、ing infrastructure,and vehicle integration are redefining mobility possibilities and adoption timelines.As stakeholders unite behind cleaner transportation solutions,understanding the current technological landscape and its trajectory becomes vital for accelerating our clean-energy future.This repor