Partner with us to accelerate the development and validation of the fabrication method for single crystal diamond membranes, through licensing and/or co-development.
The technology
This scalable method produces high-quality, ultra-thin single crystal diamond membranes. They are suitable for a wide range of applications in optics, sensing, quantum computing and filtration. They are also suitable for use as high-strength, ultra-thin vacuum windows.
Market need
Industrially scalable fabrication methods are needed to exploit the superior chemical, physical and structural properties of single crystal diamond for use in integrated photonics.
Technology status
The method produces thin (less than 300 nanometres) large-area, single crystal diamond membranes at up to half the cost of current techniques.
The membranes and their method of fabrication are the subject of a patent application. Further research and development is underway to explore new applications of the technology.
Contact
Eric Hoefgen
eric.hoefgen@unimelb.edu.au
Phone: +61 3 8344 4519
Flyer
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