Currently, the increasing density and intensity of radiofrequency radiation cause strong Electromagnetic Interference (EMI), negatively affecting the performance and lifespan of various sensitive electronic devices. Our technology produces high-density nanotubes that shield devices from EMI without significantly increasing their weight or volume.
Currently, the increasing density and intensity of radiofrequency radiation cause strong Electromagnetic Interference (EMI), negatively affecting the performance and lifespan of various sensitive electronic devices. Our technology produces high-density nanotubes that shield devices from EMI without significantly increasing their weight or volume.
The synthesis method combines electrospinning (EP), atomic layer deposition (ALD), and chemical reduction techniques, producing nanotubes with low density, high aspect ratio, and low probability of aggregation. This combination of techniques solves the synthesis issues present in other nanomaterial production methods.
Advantages:
- Capacity to block Electromagnetic Interference.
- Reduced synthesis time. High volume of nanotubes obtained.
- High aspect ratio and low probability of aggregation.
- High-density and low-weight nanotubes.
Industry Application
- Consumer Electronics (Mobiles, Wearables).
- Telecommunications. Network Infrastructure.
- Transmission and Reception Equipment.
- Aerospace and Defense (Satellites, Aircraft).
- Automotive (Electric and Hybrid Vehicles).
- Medicine (Diagnostic Equipment and Medical Devices).
- Industry and Energy (Power Plants and Industrial Automation).
Intellectual property status
Granted Patent
Patent number :
Where : Chile
Current development status
Laboratory prototypes