Cancrie, a pioneering firm based in Jaipur, India, is set to transform the energy storage landscape with its innovative and environmentally friendly material.
Founded by Akshay Jain and Mahi Singh, Cancrie has leveraged over eight years of hands on experience to develop a patented material that promises to enhance the performance of various energy storage devices, including batteries and capacitors.
At the heart of Cancrie’s breakthrough is its advanced carbon material, which is derived from waste and minimizes chemical usage compared to traditional solutions.
This carbon material, known for its superior performance, is designed to integrate seamlessly into existing production lines, offering a drop-in solution that does not require significant alterations to manufacturing processes.
The Cancrie carbon excels across a range of energy storage technologies.
In lead-acid batteries, it significantly boosts electrode surface area and cohesion strength, leading to a remarkable improvement in efficiency and lifespan.
The addition of Cancrie’s carbon enhances the electrochemical reactions within the battery, resulting in up to 98% Ampere hour efficiency and a 50% increase in cycle life.
These advancements make lead-acid batteries more competitive in an industry that values both performance and longevity.
For lithium-ion batteries, Cancrie’s carbon material acts as a full cathode, enhancing the rate of electrochemical reactions.
This results in a 125% increase in energy density and a power density of 7 kW/kg, all while reducing reliance on rare earth metals.
The improved performance makes these batteries more sustainable and efficient, aligning with the growing demand for high energy density solutions in electronics and electric vehicles.
For supercapacitors, Cancrie’s carbon delivers exceptional capacitance and cycleability.
The material’s optimized surface properties facilitate rapid ion diffusion and electron transfer, enabling supercapacitors to charge and discharge quickly.
This makes them ideal for applications requiring rapid energy bursts or frequent charge cycles.
The technology also extends to Vanadium Redox Flow Batteries (VRFBs), where Cancrie’s carbon enhances energy storage capacity and overall efficiency.
The material’s superior ion transport and mechanical stability contribute to longer cycle life and faster charge/discharge rates, improving the viability of VRFBs for large scale energy storage and renewable energy integration.
Moreover, Cancrie’s carbon material is making strides in fuel cell technology.
Its high surface area and porosity facilitate efficient fuel adsorption and reaction, while its mechanical stability extends electrode durability.
The enhanced conductivity of the carbon matrix ensures effective electron transfer, optimizing the performance of fuel cells in various applications.
With its commitment to sustainability and high performance, Cancrie is setting a new standard in energy storage materials while also contributing to a cleaner, more efficient future.
The company’s innovation represents a significant step towards integrating eco friendly solutions into critical technologies, driving forward the agenda of renewable resources and net-zero emissions.
