Thermal
Interface Materials

Mastering Heat
With Nano-Materials

Applications

Consumer
Electronics

Power
Supplies

Thermexit Solutions for Automotive Applications

LED, LCD and
Optical Displays

Motor
Controls

High Power Density
Semiconductors

Batteries and Energy
Storage Devices

About
Thermexit Pads

Nanoramic Thermexit™ is a line of high-end thermal interface gap filler pads. Nanoramic's® gap fillers are a non-reactive, non-silicon, no cure system featuring high thermal conductivity and high thermal stability. Nanoramic® produces 2 novel product lines, a High Performance TIM Gap Filler and an Electrically Insulating TIM Gap Filler.

The Nanoramic Thermexit™ technology is derived from years of government funded research and development in advanced materials including the application of carbon nanotubes in electrochemical systems as well as dispersion, compounding and coating process for composites of nanotubes and other carbons. Based on a deep knowledge of nanocarbon materials, processes, and applications, Nanoramic® has demonstrated success in polymer-based composites, thermal interface materials, and binderless electrodes for energy storage.

Product Lines

Thermexit™-HP-40
High Performance
TIM Pad

KEY FEATURES

Non-silicone, non-reactive, no-cure system (no resin-filler separation or unconsumed reactant outgassing)

High thermal stability, with continuous operation over 150°C

High thermal conductivity (>40W/mK)

Easy pick and place application (naturally sticky) without residue/mess

Highly compressible to minimize contact resistance without high force and component stress

download datasheet

Thermexit™-El-20
Electrically Insulating
TIM Pad

KEY FEATURES

Non-silicone, non-reactive, no-cure system (no resin-filler separation or unconsumed reactant outgassing)

High thermal stability, with continuous operation over 150°C

High thermal conductivity (>20W/mK)

Easy pick and place application (naturally sticky) without residue/mess

Highly compressible to minimize contact resistance without high force and component stress

High breakdown voltage

download datasheet

Government awards

nasa logoadvanced research projects agency energy logounited states department of energy logo

Investors

Other Nanoramic Brands

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