World-class nanocarbon composites engineering


Started out of MIT in 2009, Nanoramic® Laboratories is a unique R&D company — we found a way to apply deep tech to some of the greatest problems faced by industry — Energy Storage and Thermal Management — by developing cutting-edge materials, structures and processes based on carbon composites.

Along the years it positioned as a disruptive player, as it proved its leadership through proprietary, innovative, cross-industries scalable technologies.

Industry-leading IP


Neocarbonix® at the Core

Neocarbonix® at the Core technology creates electrodes with an advanced 3-D nanoscopic carbon binding structure, providing reduced cost and greater power, energy density, and cycle life performance compared to traditional battery designs.



FastCap® Ultracapacitors is an industry leader in harsh environment energy storage, producing the only carbon nanotubes-based ultracapacitors capable of operating in temperatures up to 150C and under conditions of high shock and vibration.


Thermexit® is a line of high-end thermal interface gap filler pads. Thermexit’s® gap fillers are a non-reactive, non-silicon, no cure system featuring high thermal conductivity and high thermal stability.



We’re about a revolution here. Actually about a serial revolution, as one triggers another. And revolutions do not belong to a single star, they are made by constellations.

Our projects are fuelled by a stellar team of beautiful minds and of high expertise: our board of directors and board of advisors alongside deemed investors and a highly skilled executive team with outstanding track record is what makes this revolution possible. We’re about an electrifying community of minds, who feed constantly on the sheer size of their „what ifs”.

Board of Directors

Executive Team

Board of Advisors

Government Awards

$12+ Million Received in Grant
Funding to Date


Nanoramic specializes in technologies and material solutions based on nano-carbons. Nano-carbons have exceptional electrical, thermal and mechanical properties at the nano-scale level. We synthesize and incorporate nano-carbons in various materials and transfer these properties at the macroscale level, addressing major challenges in energy storage and thermal management.