Surface Engineering Solutions
Nanotechnology solutions are engineered for long-term physical layer stability.
Infrastructure performance begins at the surface. Our technologies stabilise exposed interfaces so energy systems, telecom networks, industrial and urban infrastructure maintain predictable performance across seasons and decades of operation.
Designed for infrastructure-scale environments, these solutions prioritise durability, thermal control, and data integrity over short-term treatment effects.
Environmental & Material Integrity
All Salus surface technologies are water-based and formulated without VOCs or PFAS compounds. They are engineered to deliver high-performance surface modification without reliance on persistent fluorinated chemicals or solvent-based systems.
-
Water-based formulations
-
No VOC emissions
-
No PFAS content
-
Non-toxic surface chemistry
-
Suitable for infrastructure, energy, and urban environments
Performance and environmental responsibility are engineered together.
Electromagnetic & Wavelength Interaction
Salus nano-technologies operate primarily within surface chemistry, material bonding, and optical wavelength interaction domains. Where light interaction is utilised (e.g., photocatalytic or optical surface systems), activity occurs within ultraviolet and visible wavelength ranges.
Salus systems do not incorporate conductive or RF-reactive components. Interaction with radiofrequency, microwave, and 4G/5G communication wavelengths is negligible.
Performance Domains
Salus surface technologies operate across four physical performance domains:
• Surface chemistry and environmental stabilisation
• Aerodynamic boundary layer control
• Structural corrosion and immersion protection
• Optical interaction and light stability
Each solution is engineered to stabilise a distinct physical layer of infrastructure performance.
Our Technologies
Salus NanoSealer
Surface stabilisation for environmental and thermal exposure across infrastructure-scale environments.
View Solution
Salus AeroNanoSealer
Boundary layer stabilisation engineered for aerodynamic efficiency and icing-prone systems.
Salus NanoPolish
Passive optical surface stabilisation for distributed sensing and low-power infrastructure systems.
View Solution
Salus NanoPaint
Structural barrier protection for corrosion, immersion, and industrial infrastructure environments.
View Solution