Building the future of battery technology

SAFER
Sustainable
More reliable
Longer lasting
Faster charging
Smaller
Lighter
THE PROBLEM

Current battery technology is unsustainable.

1
2

To meet our future energy storage demand, a completely new approach to battery design and production is needed now.

The problem

Existing lithium-ion batteries are hitting their technology limits, and the production process harms the environment.

2
2

Leading the way to a sustainable battery future

Safer
More reliable
Longer-lasting
Faster-charging
Higher energy density

The solid state battery

Replacing toxic and flammable liquid electrolytes present in conventional batteries with solid, more sustainable materials will unlock the next generation in battery technology.

Solid electrolytes

Non-flammable, non-toxic, more recyclable solid materials for higher energy density.

Adaptive anode architecture

Engineered interface enabling high energy density, reduced weight and compatibility with multiple metal chemistries.

the
difference
bipolar architecture design
turnkey manufacturing platfoRm

Bipolar architecture design

Smaller battery packs, less components and cost-effective production. Unbeaten energy density.

Intelligent, modular and composable

Our bipolar architecture design is key to seamless scalability and easy cell-to-pack integration.

Specification-driven, flexible design

A software-defined solution designed to accommodate any application requirements. This includes batteries in any shape, size and capacity.

sustainable
state-of-the-art
easy deployment
efficient
scalable
simple operations

Voltpile’s proprietary production platform is easy to deploy, more efficient and sustainable than other options in the market.

A complete, licensable solution

1

Bipolar architecture solid state battery

2

Quick deployment manufacturing platform

Ideal for mission-critical applications

Voltpile is the leader in energy density, safety and reliability.

Space

$
6.82B
By
2032
+55%

The space battery market is set to grow to $6.82 billion by 2032.

Source: Maximize Market Research

Aviation

$
1.6B
By
2034
[100x]

The global aircraft battery market is expected to reach $1.6 billion in 2034.

Source: Global Market Insights

Marine

$
2.9B
By
2032
+45%

The deep-sea battery market is projected to be worth $2.9 billion by 2032.

Source: Stellar Market Research

A necessary technology to help solve the climate problem

We believe that a leap in battery technology is urgently needed to make the transition to electric power a reality.

Increased energy density

[+]
60%

Energy density (Wh/l and Wh/kg) at the pack level compared to current li-ion technology.

Unmatched reliability

[+]
10x

Functional lifetime. The smart architecture selectively and safely disables non-functioning cells in the pack as it ages.

Reduced emissions

>
60%

Carbon emissions in the manufacturing process compared with li-ion batteries.

Improved maintainability

[+]
100%

Improvement in maintainability as traditional batteries can’t be serviced.

Partnere?
Parners?
Partenaires?
Parceiros?

partnerships

We’re always on the lookout for strategic partners that can help us build the future of battery technology.