NanoHeat® heater with integrated touch panel electronic circuitry - a world first patented novel multi-layered ultra-thin heat generation system integrated on a solid or flexible substrate base


Technology Platform – NanoHeat®

AME invents, develops & commercialises a Novel Heating Technology for high performance and energy saving heating, and is applicable to A.C. or D.C. power sources.

This invention technology is capable of providing fast heating and reaching 5°C per second, high energy efficiency with low power loss, and can be utilised for a wide range of applications on advanced laboratory equipment, innovative consumer, lifestyle and household products, industrial heating systems, automotive devices and healthcare products.

NanoHeat® Technological Niches

Fast Heating & High Efficiency:

•Extreme fast heating rate to reach 300oC in a minute and even up to 20oC rise per second

•Over 99% energy efficiency in dynamic heat transfer & over 90% in static heat transfer

D.C. Power & Renewable Energy Sources:

•ultra-low electrical resistance, capable to be driven by battery and D.C. power, providing a platform for renewable energy uses & huge market potential for outdoor and portable products

High Emissivity of Far Infra-red & No Magnetic Interference:

•huge market potential with wide range of applications in medical & thermal therapy devices, and hospital, laboratory, rescue & military equipment, and automotive & aerospace applications

Capable High Power Density Output: 

•capable to generate 5kW power output per 10 x 10 cm2, creating platform for compact but high power heating devices

Versatility in Designs &  Applications:

•versatile platform for new generation slim, compact and concise design, & high performance products, with strong impact to the industry and the market

MRI Test for Medical Applications

‧A plastic bottle filled with water is placed above a NanoHeat® heating element.

‧A phantom was also placed under the heating element so as to locate the position of the heating element on the scan images to be taken.

‧MRI uses a powerful magnetic field to align the nuclear magnetization of hydrogen atoms in water (in human body).

‧Figure shows four scan images taken at high field (3T, T: tesla) at different resonance frequencies.

‧No sign of interference or artifact in the image is evident. The dark spots in the images of the water bottle are formed by reflections by some air trapped inside the bottle, which is not fully filled at the first place.