Multifunctional Properties Engineered at Nanoscale
By integrating architectured nanomaterials right where they are required, products are benefiting from their exceptional properties. Furthermore, these properties can be combined, allowing a single architectured nanomaterial to enhance a product with multiple functionalities.
Robust Mechanical resistance
As a consequence of their unique structure, Architectured Nanomaterials enable outstanding mechanical strength, flexibility and durability to the weakest spots in products. They help these products to withstand more stress and strain, making them ideal for high-performance applications in sport, aerospace, automotive, and advanced manufacturing where reliability and longevity are crucial.
Superior Thermal Management and Electrical Conductivity
Thermal and electrical conductivity
Our advanced nanomaterials enhance thermal and electrical conductivity right where it is required. This ensures efficient heat dissipation and rapid electron transfer, supporting applications in power electronics, heat exchangers, energy storage, and lightweight electrical circuits. These conductive pathways minimize energy loss, optimize system performance, and enable the development of more compact devices.
Catalytic performances
The structure of our materials offer highly efficient catalytic activity. Their large surface area facilitate faster chemical reactions, benefiting the performance of applications in diverse industries such as hydrogen fuel cells and specialty chemical synthesis, where reaction efficiency and durability are key.
Beyond Materials: Integrated sensors, EMI shielding, Structural health Monitoring
Sensitive surfaces
The integration of NAWAH’s technologies help create surfaces precisely structured to exhibit heightened sensitivity to physical, chemical, or biological changes. Such functionalized surfaces are essential for next-generation sensors and detection systems in sport, healthcare, environmental monitoring, and industrial process control, delivering rapid and highly selective responses.
Wave absorbtion (electromagnetic, vibration, mechanic)
Our nanomaterials can be engineered to absorb or dampen electromagnetic waves, vibrations, or mechanical shocks. This makes them ideal for EMI shielding in electronics, vibration isolation in transportation, and defense applications where stealth or signal fidelity is critical. The adaptability to multiple types of waves ensures tailored solutions for various advanced sectors.
Thanks to their versatility, NAWAH materials drive innovation across multiple industrial sectors. They answer the quest for performance and durability while opening pathways to new functions for industrial partners.