Industrially grown crystals are used in a vast variety of applications which are key to our modern way of life, from smartphone screens to LED and electric cars. However, growing them is a slow and imperfect process. Very often, the crystal has defects that only get noticed...
Industrially grown crystals are used in a vast variety of applications which are key to our modern way of life, from smartphone screens to LED and electric cars.
However, growing them is a slow and imperfect process. Very often, the crystal has defects that only get noticed after the crystal has been processed.Â
In most of the industrial crystals defects appears which seriously affect crystal properties, and limit their practical applications as well as final device lifetime. Therefore identifying, classifying, and quantifying defects in an automatic way helps to control raw crystal quality and improves the amount of high quality material harvested from each crystal.Â
Scientific Visual (Switzerland) developed highly innovative scanning technology to detect and map defects in raw synthetic crystals prior to crystal processing. Automated inspection tools based on this technology ensure that only high quality material enters the value stream. The current systems SapphiroScanâ„¢ and SapphiroScopeâ„¢ are used in production of sapphire material intended for high volume markets such as LED, watch and touch screen devices.Â
During the feasibility study, we analysed four markets in order to extend Scientific Visual innovative scanning technology beyond sapphire applications to other synthetic crystals used as in optics and semiconductor industries.
We identified three niche markets and one strategic market enough mature to shift today sapphire scanning technology into mainstream industrial applications.
Detailed saving that customers will benefit from have been analysed in order to perform a design to cost Quality Control systems.
By the end of the project, Scientific Visual selected the most promising crystal market to expand its technology to. Scientific Visual will bring a new Quality Control system that will inspect a new range of industrially grown crystal used in one market segment. It will help society to reduce its energy consumption greatly by enabling the creation of new electronic components and lower their cost. It will contribute moving to renewable energy and reduce the cost of transitioning from light bulb to low consumption LED.
More info: https://scientificvisual.ch/horizon-2020/.