Revolutionizing Energy Storage
SilexCore specializes in the production of high-capacity zinc-ion aqueous liquid batteries designed to overcome the limitations of traditional lithium-ion batteries. Through relentless research and development, we are pioneering groundbreaking technologies that redefine the way industries harness and manage energy resources. Our batteries are not only safe but also excel in harsh environmental conditions, whether it's extreme heat or cold. They are built to be durable, feature a simple design, and offer flexibility and scalability. Most importantly, our technology is environmentally friendly, contributing to a greener future.
Main Features:
- Porous Bipolar Electrodes
- Chemical Resistant Components
- High Capacity
- Flexible & Scalable
- Safe to Use
- Long Durability
- Withstands Extreme Conditions
- Environmentally Friendly
Crafted to support an energy system that is decentralized, democratized, and focused on reducing carbon emissions, SilexCore solutions are contributing to a cleaner future, starting today.
Accelerate the Adoption of Renewable Energy Sources
With the dependable combination of SilexCore storage systems, solar, and wind power, effectively addressing the intermittency challenge of green energy sources and building strong community support.
Create Robust & Resilient Energy Grids
Using SilexCore storage solutions that operate without the need for traditional wiring. These storage systems guarantee a reliable power supply during outages and network congestion in today's infrastructure and seamlessly transition to tomorrow's energy networks.
Enable Local Power Generation
By offering self-owned micro-grids or on-premise installations, complemented by SilexCore storage solutions. This empowers a wider range of companies and communities to generate cost-effective and dependable electricity.
Enhance Energy Capacity
Enhances volumetric and gravimetric energy densities substantially by applying graphite and carbon bipolar electrodes and high capacity zinc-halides aqueous liquid electrolyte .
Reduce Expenses
By eliminating the need for anode/cathode rare materials, replacing them with abundant materials and by using water based aqueous liquid electrolyte material and associated manufacturing costs.
Long Lasting Energy Source
Prolongs the useful lifespan by eliminating capacity loss at the chemical reaction and bipolar anode/cathode interface.