NIL Technology specializes in a varity of markets. These can be found underneath. Yet, a lot of our projects can be found outside these categories. 

Contact us to get more information about how we may assist you in your project. 

Virtual & Augmented Reality

Nanostructures are used to guide light into the eyes of the user. For augmented reality, diffractive optical elements are used in time-of-flight devices to map the surroundings

Autonomous cars & machine vision

Nanostructures enable faster light signal processing: specifically micro lens arrays, diffractive optical elements and Fresnel lenses.

Mobile phones

Nanostructures enable optical components to be more compact and to build in new functionalities such as gesture sensing.

Masters ans smartphones, lenses

DNA sequencing

Nanostructures interact with DNA molecules by defining reaction sites for detection or by stretching out the DNA molecules for more accurate read-out.

Internet of Things

Nanostructures are used to make compact, lightweight sensing devices, which can be manufacture in volumes of billions.

Quantum computing

Nanostructures are used to create well controlled catalytic seed particles for computational qubit growth.

Neuron computing

Well controlled nanoscale 3D structures are used as anchor points for neuros in neuron chips.

Medical equipment & Biotech

Use of nanostructures to change surface properties (wetting, anti-bacteria) or to manipulate optical signals.

Space applications

Nanostructures are used to create smart solar- and heat radiation shields in satellites.


Nanostructures applied to plastic packaging for enhanced functionalities like controlled wetting and decoration.