X-rays are the oldest and most frequently used form of medical imaging which helps doctors in the identification, diagnosis, and treatment of many types of medical conditions. Today, despite the undiscussed validity of X-Ray imaging, still too many medications errors due to incorrect diagnosis occur. DiCoMo aims to improve the specificity (thanks to a higher resolution) and sensitivity of digital flat panel X-ray detectors.
This is achieved by combining radical innovations from leading European players from various disciplines. On the backplane level IGZO thin film transistors enable the realization of an active pixel readout scheme. In combination with a custom made read-out IC this promises a significant enhancement in sensitivity. On the frontplane level a novel solvent-free processing technology for hybrid-organic semiconductors is used in conjunction with hybrid-organic core-shell structures to realize thick hybrid-organic photodetectors with integrated scintillator particles for minimal optical cross-talk and enhanced resolution.
The consortium brings together commercial and research partners from across the Organic and Large Area Electronics and medical imaging value chain. These partners are system provider Siemens Healthineers, materials supplier BASF, innovation centers TNO and imec, plus SMEs ICsense and Morphwize focusing on customized read-out ICs and modelling and simulation respectively.
Conclusions
DiCoMo tested new innovative design solutions to improve the dynamic range and sensitivity of the X-Ray imager. We switched from the commonly used passive pixel to an in-pixel scheme. Also, we introduced novel materials and a low-temperature process for low-cost direct-conversion layer fabrication. DiCoMo showcased a remarkable case of synergy between European high tech micro-SMEs, large enterprises and R&D excellence institutions, in the quest to develop solutions close to the market.
As a result, the DiCoMo consortium did successfully implement functional VGA-demonstrators. To the best of our knowledge it is the first time that an active pixel backplane with low-cost IGZO technology is used in a flat-panel X-ray detector. The combination with a low-cost directly converting X-ray absorber has the potential to increase the resolution and sensitivity of such detectors. While further improvement of several aspects (collection efficiency of front plane, noise performance of backplane) is required, DiCoMo has significantly enhanced the competence and scientific know-how in this domain and we expect to see a plurality of follow-up initiatives towards innovative products.