Three companies in the graphene business have been approved a European Innovation Council Fast Track to Innovation (FTI) project to help bring to the market the G-IMAGER, a graphene imager based on graphene-on-wafer technology. The G-Imager is a short-wave infrared (SWIR) detector for applications in semiconductor inspection, sorting systems, spectroscopy hyperspectral imaging and surveillance. The projected market size for SWIR cameras in 2020 is around $1 billion.
The ultimate challenge for wider application of SWIR imaging products is the high cost of SWIR detectors, which are today primarily manufactured with InGaAs technology. The high price is related to the complex manufacturing of InGaAs that also prevents increase of the detector production volumes. Now Graphenea Semiconductor SL, Emberion Oy, and AMO GmbH are embarked on a course to construct and market the G-Imager which will bring the core price down significantly , allowing market volumes to multiply manyfold
The G-Imager will be based on the scientifically proven operation of a graphene channel coupled to nanocrystal light absorbers. The nanocrystals serve the function of strong light absorbers for high efficiency, whereas the graphene channel efficiently transports the generated charge to electrical contacts for detection. The benefits of G-Imager compared to other SWIR detectors, apart from the dramatic cost reduction, will be a lack of cooling requirements, low noise, large dynamic range, broad spectral range and scalable pixel size. These benefits guarantee quick market uptake of the product beyond the project duration, which is 24 months.
The business opportunity for the G-Imager is evident. SWIR detector customers typically observe major potential to increase device purchase volumes, however the price of current solutions is a put off. To bring G-Imager to the market, the project consortium will have to tackle challenges related to maturing the innovation. Namely, the production process yield for the detectors meeting a specified set of quality requirements must be guaranteed at a minimum of 85%, which is an industry standard. The technology readiness level must be raised to level 8, while scaling up the production process to meet volume requirements. Graphenea will scale up production of 200mm graphene-on-wafers to 10,000 wafers/year. A key project goal is integration into semiconductor production processes, such that G-Imager production is compatible with demanding requirements of the foundries where high-volume semiconductor device production takes place, like the foundry at AMO GmbH. AMO will develop a new “graphene device foundry service” to industrialize production of the photodetector. Development of established design rules and other parameters for graphene processing through this project will shorten the time to market for other optoelectronic applications of graphene as well. The SWIR detector production will be finalized at Emberion, where VGA resolution imager products will be made by depositing and patterning photosensitive materials on the graphene devices. Product finalization includes encapsulation, dicing and packaging the final imager products and integrating them into Emberion’s camera core products.
The project will demonstrate an affordable high-performance camera for VIS-SWIR imaging that will allow bringing SWIR detection into much higher volumes than today, enabling new applications in the areas of night and machine vision. Night vision is used primarily for various surveillance applications, example for border security or search-and-rescue applications at sea, and machine vision is used for example in the food supply chain to ensure food quality “from field to fork”. The consortium expects the project to assist in raising the cumulative net income of the consortium members to 60M€ in 4 years.
The Fast Track to Innovation (FTI) is a fully-bottom-up innovation support programme of the European Commission promoting close-to-the-market innovation activities open to industry-driven consortia. It can help partners to co-create and test breakthrough products, services or business processes that have the potential to revolutionize existing or create entirely new markets, under the helm of the new European Innovation Council (EIC) pilot.
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 820591
About Graphenea Semiconductor SL
Graphenea Semiconductor SL is a spin-off of Graphenea, a leading graphene producer venture backed by Repsol, established in 2010, which has since grown to be one of the world’s largest providers of graphene. The company is headquartered at the nanotechnology cluster CIC nanoGune in San Sebastian, Spain and the MIT campus in Cambridge, MA Boston. Graphenea employs 22 people and exports graphene materials to more than 600 customers in 55 countries. The company has focused on constant improvement of graphene quality, becoming a supplier customers can rely on. Graphenea employs a team of skilled laboratory staff who have brought graphene production techniques to a new level. Graphenea produces CVD graphene wafers and graphene oxide. The company partners with large multinationals to develop custom graphene materials for their applications. Its research agility and ability to keep pace with the progress of graphene science and technology has allowed Graphenea to become a core partner in the Graphene Flagship, a ten year project of the European Commission worth a billion euros. The company keeps a close relation with the world’s leading scientists, regularly publishing scientific articles of the highest level and holds a strong patent portfolio.
About Emberion Oy
Emberion designs and produces high-performance optoelectronic devices based on graphene, other nanomaterials and in-house designed CMOS integrated circuits. Our primary products are infrared detectors for VIS-SWIR and thermal imaging. Emberion’s products combine high performance with competitive cost level and thus enable new application areas for infrared imaging.
Emberion is an independent SME spin-out from Nokia’s R&D based on venture capital funding from Verso Ventures and co-founded with Emberion employees. Emberion is co-located in Cambridge, UK, and Espoo, Finland and we are a member of the European Graphene Flagship program.
About AMO GmbH
AMO GmbH is a research oriented semiconductor company located in Aachen, Germany. Established in 1993 AMO focuses on closing the gap between basic research and industrial application. For this purpose a high level 400 m² cleanroom equipped with state-of-the-art semiconductor processing and metrology tools is available. The activities are focused on the identification of new directions in nanotechnology for applications in information technology, biotechnology, photonics and sensor technology. AMOs specific strengths are in the area of nano-lithography (e-beam lithography/UV-nanoimprint/optical lithography), pattern transfer (dry etching / metallization) and the integration of new materials into silicon CMOS technology. AMO has been active in the field of graphene based (opto)-electronics since 2006 and has developed the required processing technology for fabricating graphene based device on a silicon wafer platform.