STARTUP-STORIES
Bengaluru Startup Developing Silicon Alternatives for Chips to Scale Up Production
SUMMARY
NoPo Nanotech, a Bengaluru company, makes single-walled carbon nanotubes (SWCNTs) that can replace silicon in semiconductors and batteries. They improve energy density and stability in batteries and enable smaller, faster chips for quantum computing.
NoPo supplies samples to major chipmakers in Taiwan and Japan and the world's largest battery provider is evaluating their material. With a recent funding round, they are scaling up production to meet global demand for this revolutionary material.
NoPo Nanotechnologies, a Bengaluru-based company, is making waves in the nanotechnology space with its development of single-walled carbon nanotubes (SWCNTs). This advanced material has the potential to revolutionize both semiconductors and batteries.
- Next-Gen Material: NoPo's SWCNTs offer unique properties that address limitations in current technologies. They can replace silicon in semiconductors, enabling smaller, faster chips crucial for quantum computing.
- Battery Breakthrough: In EV batteries, SWCNTs enhance energy density and stability, surpassing the limitations of traditional silicon batteries that crack during charging and discharging.
- Global Reach: NoPo already supplies samples to leading chipmakers in Taiwan and Japan and is evaluating its material with the world's largest battery provider.
- Scaling Up: With a recent funding round, NoPo is expanding production capacity to meet the demands of global original equipment manufacturers (OEMs).
- Diverse Applications: Beyond semiconductors and batteries, SWCNTs have the potential for various applications, offering a wide market reach for NoPo.
NoPo's innovative material positions them at the forefront of nanotechnology advancements. Their ability to address critical challenges in chip design and battery performance has attracted interest from global giants in both sectors. As they scale up production and secure partnerships with leading manufacturers, NoPo is poised to significantly impact the future of electronics and clean energy.