Roll it.
Coat it.
Power it.
Powering the
future,
layer
by layer
Powering the future, layer by layer
We develop drop-in solutions improving battery technologies and advancing future energy storage.
Roll it.
Coat it.
Power it.
Powering the
future,
layer
by layer
Powering the future, layer by layer
We develop drop-in solutions improving battery technologies and advancing future energy storage.
supported by
ABOUT US
ABOUT US
Qkera specializes in developing innovative solid electrolyte materials that are designed to enhance energy density and boost performance across a wide range of battery technologies. This includes advanced lithium-ion, lithium metal, silicon, and solid-state batteries - supporting the diverse future of energy storage.
Our mission is to overcome the obstacles to mass commercialization of next-gen battery technologies. We achieve this by offering innovative, cost-effective, and scalable drop-in solutions. Through our cutting-edge chemical processing technologies, we unlock the full potential of widely field-tested, superior materials for advanced energy storage.
OUR TECHNOLOGY
OUR TECHNOLOGY
What we enable
What we enable
01
Anode
The future of batteries will be diverse – there won’t be a one-size-fits all. Our approach is compatible with high-energy density anodes like lithium metal, silicon, but also improves conventional graphite electrode systems to add stability and safety.
02
Solid Electrolyte
Our flexible and thin oxide ceramic electrolyte coupled with a proprietary bilayer approach can be combined with any state-of-the-art polymer separator, integrating optimized interfaces with high-performance materials without adding bulkiness.
03
Cathode
Our materials are completely cathode-agnostic – thus boosting the energy density of LFP cathodes, while getting the best out of high-voltage systems – serving as a platform to enable a powerful future for all kinds of applications.
01
Anode
The future of batteries will be diverse – there won’t be a one-size-fits all. Our approach is compatible with high-energy density anodes like lithium metal, silicon, but also improves conventional graphite electrode systems to add stability and safety.
02
Solid Electrolyte
Our flexible and thin oxide ceramic electrolyte coupled with a proprietary bilayer approach can be combined with any state-of-the-art polymer separator, integrating optimized interfaces with high-performance materials without adding bulkiness.
03
Cathode
Our materials are completely cathode-agnostic – thus boosting the energy density of LFP cathodes, while getting the best out of high-voltage systems – serving as a platform to enable a powerful future for all kinds of applications.
MISSION STATEMENT
MISSION STATEMENT
Unlocking
Unlocking next-generation batteries
next-generation
batteries
Cost-Effective
Our products utilize abundant and inexpensive raw materials, combined with a rapid, low-temperature synthesis process that boasts near-unity yield for maximum efficiency.
Cost-Effective
Our products utilize abundant and inexpensive raw materials, combined with a rapid, low-temperature synthesis process that boasts near-unity yield for maximum efficiency.
Thin and High-Performance
To achieve uncompromised performance, our electrolytes are engineered to be exceptionally thin (1-20 microns), enabling high energy density alongside superior mechanical robustness and flexibility.
Thin and High-Performance
To achieve uncompromised performance, our electrolytes are engineered to be exceptionally thin (1-20 microns), enabling high energy density alongside superior mechanical robustness and flexibility.
Oxide-Based Solid Electrolyte Technology
Leveraging proven and field-tested materials, our technology is designed for high ionic conductivity, as well as electrochemical and thermal stability
Oxide-Based Solid Electrolyte Technology
Leveraging proven and field-tested materials, our technology is designed for high ionic conductivity, as well as electrochemical and thermal stability
Scalable and Roll-to-Roll Compatible
Our materials and large-area processing capabilities ensure cost-effective and scalable manufacturing through compatibility with roll-to-roll methods.
Scalable and Roll-to-Roll Compatible
Our materials and large-area processing capabilities ensure cost-effective and scalable manufacturing through compatibility with roll-to-roll methods.
Versatile Design
Compatible with current and next-gen battery designs through unique bilayer technology.
Versatile Design
Compatible with current and next-gen battery designs through unique bilayer technology.
Enhanced Safety and Strength
Stable at extreme temperatures above 500 °C and high mechanical robustness to support dimensional expansion and dendrite penetration while maintaining structural integrity at low thicknesses.
Enhanced Safety and Strength
Stable at extreme temperatures above 500 °C and high mechanical robustness to support dimensional expansion and dendrite penetration while maintaining structural integrity at low thicknesses.
AWARDS
AWARDS
Awards & media
Awards & media
OUR TEAM
OUR TEAM
Innovators
Innovators driving the future of energy
driving the future
of energy
Revolutionizing energy storage through innovative, scalable, and high-performance solid electrolytes.