Applications
Self-powered electronics, combining ultra-thin supercapacitors with energy harvesting, are set to revolutionize the electronics world. Ultra-thin supercapacitors store energy efficiently and can rapidly charge and discharge, with cycling life of hundreds of thousands of cycles, making them perfect partners for energy harvesting technologies that draw from ambient sources like solar, thermal, and kinetic energy. They can also enhance the capabilities of traditional batteries for certain use cases.
This synergy enables continuous, maintenance-free operation of devices, reducing the reliance on traditional batteries and their associated environmental impact. It also enhances the longevity and reliability of electronic devices, particularly in remote or inaccessible locations. The combination promotes innovative applications in IoT, wearable tech, and smart systems, driving advancements in sustainability and efficiency.
Smart cards
Smart cards with biometric sensors offer advanced security by integrating biometric technologies with innovative power solutions. These cards enhance security by verifying a user’s identity through unique physical features like fingerprints, stored directly on the card. When a user’s biometric data is scanned, it is matched with the stored information, and access is granted upon confirmation.
The S-Power 2R is specifically developed to meet the demanding requirements of active biometric cards. Unlike other solutions that rely on hazardous chemicals or lithium batteries, the S-Power 2R is consciously designed with bio-based materials, providing a safer, more environmentally friendly power source without compromising performance.
Asset trackers
Active asset trackers enable real-time tracking, optimizing supply chain operations and contribute to significant spoilage reduction, potentially decreasing waste by up to 14% by monitoring environmental conditions in transit, which is particularly crucial for perishable goods. Moreover, logistics optimization through these trackers can reduce transportation-related CO2 emissions by 10-15% by optimizing routes and reducing fuel consumption.
Our supercapacitor makes the tracker ultra-thin, making it ideal for parcels or surface attachments. This design ensures the tracker is cost-efficient and avoids unnecessary added weight, further contributing to logistics optimization by reducing fuel consumption and carbon emissions.
Additionally, the S-Power 2S is easy to dispose of thanks to its bio-based composition, which minimizes the tracker’s environmental impact.
Electronic shelf labels
Switching from battery-powered electronic shelf labels to the S-Power 2S with energy harvesting offers significant advantages. These labels not only reduce the environmental impact by eliminating the need for disposable batteries but also extend the lifespan of your labeling system.
The combination of the S-Power 2S and an energy harvester provides a paper-like, eco-friendly solution that enhances sustainability while maintaining the efficiency and convenience of digital labels. This transition allows for more effective resource management and long-term cost savings by minimizing maintenance and waste.
Smart buildings
Buildings are responsible for up to 40% of energy consumption in the EU and generate about 36% of its CO2 emissions. By transitioning to connected indoor climate sensors, you can significantly optimize energy usage and reduce both energy consumption and emissions.
Our sustainable supercapacitors, combined with indoor light harvesters, powers thin, self-sufficient sensor devices. This eliminates the need for battery replacements, contributing to smarter, more energy-efficient buildings. This solution not only enhances sustainability but also reduces maintenance efforts and costs, paving the way for a greener future in building management.