“Increasing Adoption of Carbon Nanotubes in Energy Storage Applications”
- Growing integration of CNTs in lithium-ion batteries and supercapacitors due to their superior electrical conductivity and structural properties, enhancing overall energy storage performance
- Enhances battery efficiency by improving energy density, thermal stability, and lifecycle, making CNTs essential for next-gen battery systems. For instance, LG Chem has been developing CNT-based anodes to improve battery output and lifespan
- Crucial for electric vehicles (EVs) and portable electronics, where fast charging, longer battery life, and compact designs are key performance metrics
- Supercapacitor manufacturers increasingly adopt CNTs to enable rapid charging and discharging, vital for applications such as hybrid energy systems and regenerative braking
- Global push for clean energy and electric mobility is accelerating demand for advanced CNT-based solutions in energy storage, aligning with carbon neutrality goals and smart grid advancements
