• Durable precision tooling for forming nano-featured polymers with atomically smooth surface finish Durable precision tooling for forming nano-featured polymers with atomically smooth surface finish
  • Enabling low cost mass production of microfluidics and lab-on-chip applications. Enabling low cost mass production of microfluidics and lab-on-chip applications.
  • Improving lives with breakthrough diagnostic applications Improving lives with breakthrough diagnostic applications

We can help your business

Our product range is positioned to assist customers involved in high volume production of polymeric microfluidic devices, particularly for Lab-on-Chip applications. 
We have also developed metallic glass optical mirrors, for use across near-infra-red, visible, and ultra-violet wavelength ranges. Current R&D includes developing BMG space mechanisms and bioresorbable medical device/implants. 

Our capabilities 

Tetra Materials can produce bulk metallic glass in a range of compositions, with properties tailored to your application.
The metallic glass can be formed into a range of shapes and form factors suitable for a number of processes.
Tetra Materials will form metallic glass tooling into your desired pattern with high precision features possible from centimeter to nanometer scales.
We can also prototype BMG components, and thin film metallic glass coatings on a range of substrates.

Updates

Dublin team exhibit Metallic Glass optical strengths
We have developed thin film metallic glass coatings with high reflectance over a wide range of wavelengths, from UV through visible to IR light. » read more
Wear-resistant Hf-based Bulk Metallic Glasses
We have determined the tribological properties of hafnium-based BMGs, and demonstrated that these materials are very hard and resistant to sliding wear. » read more
Update on Covid-19 situation
Tetra Materials continues in business, with an even wider suite of capabilities. » read more
Work on metallic glasses for biomedical applications published in Advanced Materials
Tetra Materials personnel have written a review of BMGs in implantable and surgical devices » read more