Sustainable materials for stationary energy storage systems
Did you know that…

In the EU,
there are more than 6 million trucks in service that deliver 70% of all consumer goods, and each of these trucks use 2 lead-acid batteries.

Lead is a known toxic metal, with no safe exposure limit, that has been banned from most applications except batteries.

Lead-acid batteries have been the standard solution in the absence of a better alternative. Despite the low price tag, they have a low life cycle and are unreliable to start the engine because their power quickly degrades over time.

They are replaced every 3 to 18 months, causing both economic and environmental problems: 50B€ of estimated economic costs and 495,550 deaths by lead exposure per year, according to WHO (2017).

C2C-NewCap is committed to providing a sustainable supercapacitor solution to replace lead-acid batteries for high-power applications.

The GO-START module
reduces the lead footprint, and combines easy adoption and low cost with safe, long-lasting operation at a wide temperature range.
Low maintenance power systems for generators
Batteries are a key component for diesel generator sets, with the main function of starting the diesel engine.
Lead-acid batteries are the leading technology in this application. However, they are also the most common reason for generator failures.

The GO-START module can replace the conventional 12 V lead-acid battery in this application, reducing the risk of generator operation failure due to battery cold-start or internal degradation in harsh temperature environments.

Additionally, the long service life of our products minimizes the problems associated with maintenance in remote or difficult to access locations.
The on-going energy transition and the growing adoption of renewable sources for electricity production has brought new challenges to the electric grid and has turned energy storage systems into key assets to maximize efficiency along the electricity supply chain.

C2C-NewCap is currently working on different projects to develop aqueous-based hybrid supercapacitor modules to be combined with relevant battery technologies, such as Li-ion and redox-flow batteries, to create hybrid energy storage systems for stationary applications.
Engine starting for automotive vehicles
Low maintenance power systems for generators
Batteries are a key component for diesel generator sets, with the main function of starting the diesel engine.
Lead-acid batteries are the leading technology in this application. However, they are also the most common reason for generator failures.

The GO-START module can replace the conventional 12 V lead-acid battery in this application, reducing the risk of generator operation failure due to battery cold-start or internal degradation in harsh temperature environments.

Additionally, the long service life of our products minimizes the problems associated with maintenance in remote or difficult to access locations.
Engine starting
Sustainable materials for stationary energy storage systems
The on-going energy transition and the growing adoption of renewable sources for electricity production has brought new challenges to the electric grid and has turned energy storage systems into key assets to maximize efficiency along the electricity supply chain.

C2C-NewCap is currently working in different projects to develop aqueous-based hybrid supercapacitor modules to be combined with relevant battery technologies, such as Li-ion and redox-flow batteries, to create hybrid energy storage systems for stationary applications.
Did you know that…

In the EU,
there are more than 6 million trucks in service that deliver 70% of all consumer goods, and each of these trucks use 2 lead-acid batteries.

Lead is a known toxic metal, with no safe exposure limit, that has been banned from most applications except batteries.

Lead-acid batteries have been the standard solution in the absence of a better alternative. Despite the low price tag, they have a low life cycle and are unreliable to start the engine because their power quickly degrades over time.

They are replaced every 3 to 18 months, causing both economic and environmental problems: 50B€ of estimated economic costs and 495 550 deaths by lead exposure per year, according to WHO (2017).

C2C-NewCap is committed to providing a sustainable supercapacitor solution to replace lead-acid batteries for high-power applications.

The GO-START module
reduces the lead footprint, and combines easy adoption, low cost with safe, long-lasting operation at a wide temperature range.
Sustainable materials for stationary energy storage systems
Low maintenance power systems for generators

Batteries are a key component for diesel generator sets, with the main function of starting the diesel engine.
Lead-acid batteries are the leading technology in this application. However, they are also the most common reason for generator failures.

The GO-START module can replace the conventional 12 V lead-acid battery in this application, reducing the risk of generator operation failure due to battery cold-start or internal degradation in harsh temperature environments.

Additionally, the long service life of our products minimizes the problems associated with maintenance in remote or difficult to access locations.

Engine starting

Did you know that…

In the EU,
there are more than 6 million trucks in service that deliver 70% of all consumer goods, and each of these trucks use 2 lead-acid batteries.

Lead is a known toxic metal, with no safe exposure limit, that has been banned from most applications except batteries.

Lead-acid batteries have been the standard solution in the absence of a better alternative. Despite the low price tag, they have a low life cycle and are unreliable to start the engine because their power quickly degrades over time.

They are replaced every 3 to 18 months, causing both economic and environmental problems: 50B€ of estimated economic costs and 495 550 deaths by lead exposure per year, according to WHO (2017).

C2C-NewCap is committed to providing a sustainable supercapacitor solution to replace lead-acid batteries for high-power applications.

The GO-START module
reduces the lead footprint, and combines easy adoption, low cost with safe, long-lasting operation at a wide temperature range.

The on-going energy transition and the growing adoption of renewable sources for electricity production has brought new challenges to the electric grid and has turned energy storage systems into key assets to maximize efficiency along the electricity supply chain.

C2C-NewCap is currently working in different projects to develop aqueous-based hybrid supercapacitor modules to be combined with relevant battery technologies, such as Li-ion and redox-flow batteries, to create hybrid energy storage systems for stationary applications.

Low Maintenance Power Systems For Generators

Batteries are a key component for diesel generator sets, with the main function of starting the diesel engine.
Lead-acid batteries are the leading technology in this application. However, they are also the most common reason for generator failures.

The GO-START module can replace the conventional 12 V lead-acid battery in this application, reducing the risk of generator operation failure due to battery cold-start or internal degradation in harsh temperature environments.

Additionally, the long service life of our products minimizes the problems associated with maintenance in remote or difficult to access locations.

Engine Starting

Did you know that…

In the EU,
there are more than 6 million trucks in service that deliver 70% of all consumer goods, and each of these trucks use 2 lead-acid batteries.

Lead is a known toxic metal, with no safe exposure limit, that has been banned from most applications except batteries.

Lead-acid batteries have been the standard solution in the absence of a better alternative. Despite the low price tag, they have a low life cycle and are unreliable to start the engine because their power quickly degrades over time.

They are replaced every 3 to 18 months, causing both economic and environmental problems: 50B€ of estimated economic costs and 495 550 deaths by lead exposure per year, according to WHO (2017).

C2C-NewCap is committed to providing a sustainable supercapacitor solution to replace lead-acid batteries for high-power applications.

The GO-START module
reduces the lead footprint, and combines easy adoption, low cost with safe, long-lasting operation at a wide temperature range.

Sustainable Materials For Stationary Energy Storage Systems

The on-going energy transition and the growing adoption of renewable sources for electricity production has brought new challenges to the electric grid and has turned energy storage systems into key assets to maximize efficiency along the electricity supply chain.

C2C-NewCap is currently working in different projects to develop aqueous-based hybrid supercapacitor modules to be combined with relevant battery technologies, such as Li-ion and redox-flow batteries, to create hybrid energy storage systems for stationary applications.

Nickel-carbon supercapacitor technology
C2C-NewCap has several on-going collaborations to develop energy storage technologies ranging from TRL 5 to 7.
What else do we do?
C2C NewCap hybrid supercapacitors use a unique technology that combines proprietary nickel and carbon electrodes with a water-based electrolyte.

Our technology presents key performance parameters such as high-power, fast charging, extended life cycle, non-flammability, and low operating cost. Our product is a sustainable energy storage device that operates safely and efficiently even in severe environments.
CHECK OUT OUR PROJECTS
C2C-NewCap is designing high voltage modules for stationary applications together with leading European partners under the project HYFLOW.
Stationary applications
C2C-NewCap is testing plasma graphene technology for integration in energy storage devices, together with 5 leading European Universities under the PEGASUS project.
Graphene for energy storage
C2C-NewCap has been contributing to the development of redox supercapacitors. Our focus has been nickel-based materials, but we are also actively pursuing other metals and alloys.
Redox supercapacitors
C2C-NewCap has been developing coating procedures using electrospray deposition technology for precision thin coatings for faster response time of the active material.
Electrospray coating
Low-environmental impact aqueous electrolyte with high conductivity.
Aqueous electrolyte
Optimised cell design for minimum internal resistance and modular assembly for flexible solutions.
Nickel-carbon cells
With our expertise on carbon slurry formulation, we have developed carbon electrodes without flammable or toxic components.
Active materials
R2R coating
We run custom roll to roll (R2R) coating machines that give us extended flexibility to manufacture custom solutions.
Nickel-carbon Supercapacitor Technology
CHECK OUT OUR PROJECTS

C2C NewCap hybrid supercapacitors use a unique technology that combines proprietary nickel and carbon electrodes with a water-based electrolyte.

Our technology presents key performance parameters such as high-power, fast charging, extended life cycle, non-flammability, and low operating cost. Our product is a sustainable energy storage device that operates safely and efficiently even in severe environments.

C2C-NewCap has several on-going collaborations to develop energy storage technologies ranging from TRL 5 to 7.

What Else Do We Do?

C2C-NewCap is designing high voltage modules for stationary applications together with leading European partners under the project HYFLOW.

Stationary applications

C2C-NewCap is testing plasma graphene technology for integration in energy storage devices, together with 5 leading European Universities under project PEGASUS.

Graphene for energy storage

C2C-NewCap has been contributing for the development of redox supercapacitors. Our focus has been nickel-based materials, but we are also actively pursuing other metals and alloys.

Redox supercapacitors

With our expertise on carbon slurry formulation, we have developed carbon electrodes without flammable or toxic components.

Electrospray coating

Low-environmental impact aqueous electrolyte with high conductivity.

Aqueous electrolyte

Optimised cell design for minimum internal resistance and modular assembly for flexible solutions.

Nickel-carbon cells

We run custom roll to roll (R2R) coating machines that give us extended flexibility to manufacture custom solutions.

R2R coating

We have built -up expertise on the development of carbon slurry formulation, always avoiding the use of flammable and toxic components.

Active materials
Nickel-carbon supercapacitor technology
CHECK OUT OUR PROJECTS

C2C NewCap hybrid supercapacitors use a unique technology that combines proprietary nickel and carbon electrodes with a water-based electrolyte.

Our technology presents key performance parameters such as high-power, fast charging, extended life cycle, non-flammability, and low operating cost. Our product is a sustainable energy storage device that operates safely and efficiently even in severe environments.

C2C-NewCap has several on-going collaborations to develop energy storage technologies ranging from TRL 5 to 7.

What else do we do?

C2C-NewCap is designing high voltage modules for stationary applications together with leading European partners under the project HYFLOW.

Stationary applications

C2C-NewCap is testing plasma graphene technology for integration in energy storage devices, together with 5 leading European Universities under project PEGASUS.

Graphene for energy storage

C2C-NewCap has been contributing for the development of redox supercapacitors. Our focus has been nickel-based materials, but we are also actively pursuing other metals and alloys.

Redox supercapacitors

C2C-NewCap has been developing coating procedures using electrospray deposition technology for precision thin coatings for faster response time of the active material.

Electrospray coating

Low-environmental impact aqueous electrolyte with high conductivity.

Aqueous electrolyte

Optimised cell design for minimum internal resistance and modular assembly for flexible solutions.

Nickel-carbon cells

We run custom roll to roll (R2R) coating machines that give us extended flexibility to manufacture custom solutions.

R2R coating

With our expertise on carbon slurry formulation, we have developed carbon electrodes without flammable or toxic components.

Active materials
Nickel-carbon supercapacitor technology
CHECK OUT OUR PROJECTS
C2C NewCap hybrid supercapacitors use a unique technology that combines proprietary nickel and carbon electrodes with a water-based electrolyte.

Our technology presents key performance parameters such as high-power, fast charging, extended life cycle, non-flammability, and low operating cost. Our product is a sustainable energy storage device that operates safely and efficiently even in severe environments.
C2C-NewCap has several on-going collaborations to develop energy storage technologies ranging from TRL 5 to 7.
What else do we do?

C2C-NewCap is designing high voltage modules for stationary applications together with leading European partners under the project HYFLOW.

Stationary applications

C2C-NewCap is testing plasma graphene technology for integration in energy storage devices, together with 5 leading European Universities under project PEGASUS.

Graphene for energy storage

C2C-NewCap has been contributing for the development of redox supercapacitors. Our focus has been nickel-based materials, but we are also actively pursuing other metals and alloys.

Redox supercapacitors

C2C-NewCap has been developing coating procedures using electrospray deposition technology for precision thin coatings for faster response time of the active material.

Electrospray coating

Low-environmental impact aqueous electrolyte with high conductivity.

Aqueous electrolyte

Optimised cell design for minimum internal resistance and modular assembly for flexible solutions.

Nickel-carbon cells

We run custom roll to roll (R2R) coating machines that give us extended flexibility to manufacture custom solutions.

R2R coating

With our expertise on carbon slurry formulation, we have developed carbon electrodes without flammable or toxic components.

Active materials