The Future of energy storage
World-leading high-power and high-performance supercapacitor energy storage
The Atlas Advantage
Dry-Electrode
Atlas' state-of-the-art dry-electrode production process is poised to revolutionize the manufacturing of energy storage devices. Unlike traditional methods that rely on solvent-based techniques, our innovative approach eliminates the need for solvents, streamlining production while reducing environmental impact.
Leveraging cutting-edge dry-electrode technology enhances the performance and reliability of energy storage devices and significantly reduces production costs and waste.
Atlas' proprietary techniques allow precise control over material composition and morphology, ensuring manufacturers can tailor electrode properties to meet specific performance requirements, whether optimizing for high energy density, rapid charge-discharge rates, or long-term durability. This versatility opens doors to a wide range of applications, from electric vehicles to wearable electronics, where customized energy storage solutions are crucial for meeting diverse consumer needs.
By revolutionizing electrode fabrication, Atlas' innovative process paves the way for next-generation energy storage devices that are more efficient, cost-effective, and environmentally sustainable.
Activated Carbon
Picture a game-changing activated carbon engineered specifically for supercapacitors, poised to redefine energy storage capabilities. Atlas' revolutionary AC material boasts an exceptionally high surface area and pore volume, providing an unparalleled platform for charge storage. Through advanced fabrication techniques and precise control over pore size distribution, Atlas’ activated carbon achieves remarkable electrochemical performance, enabling rapid charge-discharge rates and enhanced energy density. Its unique nanostructure facilitates efficient ion transport, minimizing internal resistance and maximizing energy storage efficiency.
Atlas has developed a world-leading activated carbon and production method, forming part of our supercapacitors' electrode, enabling its electrochemical properties. When used in our supercapacitors, Atlas' activated carbon has shown the world's highest recorded energy density for ac-based carbon-carbon electrodes.
Moreover, Atlas' activated carbon is highly efficient, cost-effective, and scalable, making it an attractive option for large-scale energy storage applications, from grid-level systems to portable electronics. Atlas' activated carbon's combination of superior performance and eco-friendliness promises to revolutionize the supercapacitor industry, driving innovation and sustainability in energy storage technology.
System Integration
Atlas employs a team of some of the world's most skilled system integrators, each a master in their respective fields, coming together to tackle the most complex technological challenges with precision, personifying innovation.
Atlas' elite group of engineers comprises experts in software development, hardware engineering, cybersecurity, system design and integration, and project management, seamlessly blending their diverse expertise to orchestrate seamless integration of Atlas's cutting-edge technologies across industries.
With a deep understanding of legacy systems and emerging technologies, Atlas's team navigates complexities easily, delivering solutions that optimize efficiency, enhance performance, and ensure the highest standards of reliability and security. Our team's collaborative spirit, relentless pursuit of excellence, and unwavering commitment to our customers' success results in an elite and unparalleled team, driving forward cutting-edge solutions and technological advancement.
Core to Atlas' ability to produce our integrated systems. Atlas has built a modular, scalable, turnkey grid-scale supercapacitor energy storage system (SC-ESS). Adaptable across many grid applications, Atlas SC-ESS has been designed to contribute to grid reliability and resilience with the continued adoption of intermittent renewable generation.
Game-Changing Supercapacitors
Atlas' supercapacitors revolutionize energy storage with their unprecedented efficiency and longevity, our game-changing device boasts an extraordinary combination of high energy density and rapid charge-discharge cycles, setting a new standard in power storage technology.
Unlike conventional batteries, Atlas's supercapacitors are not limited by chemical reactions, enabling them to charge and discharge in a matter of seconds while maintaining their performance over millions of cycles with minimal degradation. Their compact size and lightweight construction make them ideal for a myriad of applications, from powering electric vehicles to storing renewable energy from solar and wind sources.
Atlas' supercapacitors represent a significant leap forward in sustainability, as they are composed of environmentally friendly materials that are both abundant and easily recyclable. Their scalability ensures widespread adoption across various industries, promising to reshape the energy landscape and accelerate the transition to a greener future. With our unparalleled efficiency and durability, our game-changing supercapacitors are poised to unlock new possibilities in energy storage, paving the way for a more sustainable and electrified world.
Supercapacitor Applications
Atlas has developed a turnkey grid-scale energy storage systems that are used to support grid reliability through both voltage and frequency stabilization.
For transportation Atlas' products can be used to support a wide range of applications including peak power reduction and regen systems. Ideal for electric vehicles and charging applications.
Within rail applications, Atlas' Supercapacitor technology can allow for recapturing and delivering large amounts of power during the deceleration and acceleration of locomotives.
With the constant lifting and placing of large heavy containers, crane applications present an ideal application for energy recovery and efficiency, leading to lower energy costs and a lower GHG footprint.
In elevators, Atlas' supercapacitors can efficiently handle the energy fluctuations caused by frequent stops and starts. Elevators provide an ideal application for recovering energy, leading to lower energy costs and a lower GHG footprint.
Within wind turbines, Atlas' Supercapacitors and supercapacitor modules provide a superior long-life solution able to withstand harsh conditions and temperature swings.
In hydroelectric systems, Atlas' supercapacitors improve operational flexibility and efficiency. They enable quick adjustments to power generation in response to demand fluctuations, ensuring a stable and reliable energy supply. This flexibility is crucial for maximizing the efficiency of hydro plants.
In the nuclear industry, Atlas' Supercapacitors can significantly enhance operational safety, efficiency, and emergency response capabilities. Their rapid energy discharge rates and high power density are ideal for providing backup power to critical systems in case of power outages.
Atlas' Supercapacitors in the medical field can revolutionize how portable medical devices and critical healthcare equipment are powered, offering rapid charging, high power density, and reliability essential for patient care.
Atlas' Supercapacitors in solar farms enable rapid charging and discharging that aligns perfectly with the intermittent nature of solar power. They provide a reliable power supply during demand spikes and low sunlight periods, improving solar farms' overall efficiency and output.
When reliability and performance are critical, Atlas' Supercapacitors can bolster the mission by providing robust, efficient energy storage solutions. They support critical operations with rapid power delivery, ensuring stability and functionality in extreme space conditions.
In the world of critical defence applications, Atlas' Supercapacitors present a strategic advantage in the military sector by enhancing the performance and reliability. Their rapid energy discharge capabilities ensure that military equipment, from vehicles to communication systems, operate efficiently and reliably.