Opsydia is proud to announce that it has been awarded the Oxford Innovation Start-up Award at The Oxford Trust Enterprise Awards 2019. The award recognises the outstanding performance of an Oxfordshire tech start-up that has been trading for one to three years. The...
Who We Are
Opsydia is a leading innovator in commercially available laser technology that gives industries the ability to place practically invisible structures, or identifiers, on the surface of or within transparent materials without compromising their integrity. Formed as a spin-out company from the University of Oxford, we specialise in creating high-volume industrial processes for practical applications based on cutting edge research.
Ready to be Deployed | Three System Types | Uniquely Suited to Diamonds | Commercially Viable
Opsydia Systems
Suitable for deployment in factory, grading laboratory or standard office environments, Opsydia Systems are designed for volume operation and process over 100,000 gemstones per year. Our trio of Systems harness cutting-edge techniques developed by scientists at the University of Oxford and translate them into reliable, industrial processes for large-scale commercial endeavours.
Diamonds
Microscopic identifiers created by Opsydia’s Systems form a physical link between a specific diamond and its grading report, blockchain record or branded jewellery origins.
Using next-generation surface and sub-surface laser techniques, Opsydia provides methods of confirming a diamond’s identity and empowers all stages of the diamond supply chain to protect the integrity of diamonds and other gemstones.
Transparent Materials
Our secure laser technology can be used to create features inside transparent materials, including polymers, plastics and glass. The optical properties of these features can be designed to give visually stunning effects in everyday lighting conditions. Security marks, serial numbers, holograms and other aesthetic identifiers are all possible.
Diamond-Based Devices
Opsydia is in the research and development phase for a new wave of applications in diamond-based devices. With precision control, our laser technology can create high spatial resolution electrically conductive tracks, arrays of electrodes and quantum colour centres within diamond wafers. Applications include radiation detectors, chemical sensors and quantum devices.
What People Say About Us
We work with manufacturers, industrial groups, technology specialists and commercial brands to meet their unique requirements
We are honoured to have been able to collaborate with Opsydia in refining the criteria for a Nano ID so that it can be integrated into diamond grading practices. Diamond traceability and security are important issues in the diamond supply chain, and it is important that such scientific techniques be developed for the trade and to ultimately strengthen consumer confidence."
Latest News
Opsydia announced as finalist in The Oxford Trust Enterprise Awards 2019
Opsydia is delighted to announce that it has been shortlisted as a finalist for the Oxford Innovation Start-up Award at The Oxford Trust Enterprise Awards 2019. The Awards recognise and celebrate the breadth of innovative companies and individual entrepreneurs working...
Opsydia secures breakthrough laser marking order from diamond giant De Beers
University of Oxford spinout Opsydia has secured the first order for its Opsydia D5000 Diamond Marking System. The sale, to industry giant De Beers for their Lightbox Jewelry business, follows over a year of development work and is a major step forward for Opsydia’s...