2. The demand for electric vehicles is
growing rapidly, driving the need for
advanced battery technologies. This
presentation will explore the latest
innovations in battery design and
materials for sustainable transportation.
INTRODUCTION
3. LITHIUM-ION BATTERIES
Lithium-ion batteries are the most
common battery technology in electric
vehicles, o ering high energy density
and long cycle life. However, challenges
such as cost and safety need to be
addressed for wider adoption.
4. SOLID-STATE BATTERIES
Solid-state batteries o er the potential for
higher energy density, faster charging, and
improved safety compared to traditional
lithium-ion batteries. Research and
development in this area are focused on
overcoming manufacturing challenges.
5. Graphene-based batteries have shown
promise in enhancing energy storage
capacity and charging speeds. The use
of graphene as a material for
electrodes could revolutionize the
performance of electric vehicle
batteries.
GRAPHENE-BASED BATTERIES
6. SODIUM-ION BATTERIES
Sodium-ion batteries are being explored as
a potential alternative to lithium-ion
batteries due to the abundance of sodium
resources. However, the current challenge
is to achieve comparable performance to
lithium-ion batteries.
7. Wireless charging technology o ers the
convenience of charging electric
vehicles without physical connections.
Advancements in inductive charging
and resonant inductive coupling are
paving the way for e cient and
seamless charging experiences.
WIRELESS CHARGING
8. CONCLUSION
The future of electric vehicles relies on continuous innovation in
battery technologies. As we strive for sustainable transportation,
advancements in battery design and materials will play a crucial
role in shaping the automotive industry.