Project description
Graphene photodetector could improve night-vision cameras
The main objective of the EU-funded G-IMAGER project is to develop cheaper and higher-performance night-vision cameras for use in the automotive, food, plastic waste and mining industries. The imager solution will be a short-wave infrared detector, which will be a lower-cost alternative to the currently used detectors made from indium gallium arsenide. G-IMAGER’s breakthrough concept relies on coupling graphene channels to photosensitive nanocrystal materials and integrating them in a chip. Apart from the lower cost, other benefits of the G-IMAGER solution are the lack of cooling requirements, and its low noise, large dynamic range, broad spectral range and scalable pixel size. These benefits will help ensure quick market uptake of the product.
Objective
G-IMAGER’s goal is to create added value through the introduction of high performing Graphene-on-wafer at competitive cost, accelerating innovation for the advanced electronic industry and eventually creating a new product category. This new area of development will make it possible for the European industry to harness this high market potential, fostering competitiveness and creating growth throughout the EU. The consortium proposes this project after an internal Business Innovation Plan, in order to take the CVD Graphene-on-wafer technology a step closer to the market through a new Graphene Imager product. This project will allow GS and EMB to become the worldwide leader as Graphene related electronics producers with the necessary production capacity to supply the industry and the research laboratories. More specifically, the G-IMAGER objectives are:
• To develop ready-to-integrate Graphene-on-wafers for the advanced electronic industry.
• To set up a customized rapid prototyping line and a new “foundry service”.
• To produce a new Graphene Imager product and validate it for industrial acceptance.
• Increase process yield and implement an automated and optimised quality control considering market requirements
• Scale production capacity to more than 10,000 wafers/year to demonstrate commercial feasibility and business growth
GS has validated and patented a highly efficient Graphene-on-wafer production process and its application into electronic devices. The consortium will be able to introduce Graphene Imager products at an industrial scale positively impacting the SWIR camera market of $ 1,100 M. The consortium will become the worldwide leader in Graphene-based advanced electronics and generate a cumulative net income of at least €60 M in four years and +33 jobs.
Fields of science (EuroSciVoc)
CORDIS classifies projects with EuroSciVoc, a multilingual taxonomy of fields of science, through a semi-automatic process based on NLP techniques.
CORDIS classifies projects with EuroSciVoc, a multilingual taxonomy of fields of science, through a semi-automatic process based on NLP techniques.
- engineering and technologynanotechnologynano-materialstwo-dimensional nanostructuresgraphene
- engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringsensorsoptical sensors
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Programme(s)
Funding Scheme
IA - Innovation actionCoordinator
20009 Donostia
Spain
The organization defined itself as SME (small and medium-sized enterprise) at the time the Grant Agreement was signed.