NeoNxGen® thermal management solutions excel in space, satellite, and aerospace applications, where lightweight construction, complex designs, and reliable operation are essential. Spacecraft and satellite electronics require advanced cooling methods for stability in some of the harshest and most unforgiving environments. Traditional multi-layer graphite or metallic heat spreaders, while effective thermally, can introduce risks of delamination, added mass, and quality challenges in the vacuum and highly variable temperatures of space. NeoNxGen materials address these needs with a monolayer graphite solution featuring thicknesses from 80 µm to 300 µm and thermal conductivities ranging from 900–1,150 W/m·K, delivering superior in-plane heat spreading with none of the failure modes common in laminated designs.
NeoNxGen materials are easy to form and integrate, allowing for streamlined assembly in intricate satellite and aerospace architectures, while eliminating bubbles, wrinkles, and other defects that can occur in layered systems. The absence of metal and adhesives reduces both mass and cost, critical metrics in satellite and launch vehicle design. NeoNxGen materials continue to perform under extreme conditions, maintaining consistent heat spreading across payloads, avionics, and other components throughout launch and orbit. For aerospace and space systems, NeoNxGen delivers robust, long-lasting, and high-efficiency thermal management tailored for mission-critical success.
