Nanoparticle dispersions and
Tunable optical properties
Engineerable flexibility and durability
Stable, non-agglomerating nanocomposite solutions
In-line processing under standard atmospheric conditions
Nanoparticle library: TiO2, ZnO, SiO2 and more
By blending the best of flexible polymers and crystalline nanoparticles, unique material properties can be produced that allow a film to excel in applications that were impossible or cost prohibitive with vacuum systems.
The index of refraction, hardness, flexibility, and thermal expansion characteristics of the composite can be pushed into regions that are unheard of with more conventional materials. Index of refraction, in particular, is infinitely adjustable between the limits of the system. This allows a stack or single layer to provide the desired optical performance, while matching the substrate more effectively, whether it is rigid or highly flexible.
With solvent borne materials and fast, radiation curing processes, our methods offer cost effective alternatives that scale up in a predictable fashion using simple application methods.
Nanoparticle composites are an attractive alternative to coatings applied by vacuum systems. Though they employ large, expensive, and complex equipment, vacuum systems often produce films that are brittle and poorly matched to plastic substrates. Unpredictable scale up and extreme expense are often encountered when moving from research to production scales as well.