NanoQI

Start date
March 1, 2020
Duration
36 months
End date
31/08/2023
Overall budget
4.99M €
Number of partners
8
Contacts
Dr. John Fahlteich
Project Coordinator
Fraunhofer-FEP
Martina Chopart
Project Manager & Dissemination Manager
AMIRES s.r.o.
PROJECT WEBSITE

Multimodal X-ray and Hyperspectral Thin-Film Nano-material Evaluation and Quality Imaging

 

Functional performances of nano-materials and thin films with nano-scale thickness are determined not only by material selection but also by their nano-physical dimensions, nano-scale structure and their nano-scale chemical composition. Precise characterisation of these properties is critical to develop new functional nano-materials and optimise processes toward higher performance, improved reproducibility and yield and up-scaling to larger quantities.

X-ray characterisation techniques such as X-ray diffraction analysis (XRD) or X-ray reflectometry (XRR) are widely used in research laboratories for this task but are rarely used in industrial material development and assessment of production processes due to technical limitations and required high level expertise.

The project NanoQI targets the development of an industry-suited, real-time and in-line capable technique to characterise nano-structure and nano-dimensions of (thin-film) nano-materials by optimisation of area-detector based XRR and XRD concepts and their multi-modal combination with a novel wide-angle hyper-spectral imaging (HSI) technique. Therewith, NanoQI will provide industry access to real time evaluation of nano-material geometry, structure and morphology and correlative imaging of deviations of these properties.

NanoQI technology will be demonstrated in three relevant industrial application scenarios: in-situ process assessment in manufacturing of perovskite solar cells; large-area vacuum roll-to-roll coating of polymer webs and industrial atomic layer deposition of dielectric and gas barrier layers.

 

AMIRES was involved in the project’s preparatory phase and in the negotiations. Within the project AMIRES is responsible for the project management and leads the work package dedicated to dissemination, training and exploitation activities.

 

  • Partners:
    • FRAUNHOFER INSTITUTE FOR ORGANIC ELECTRONICS, ELECTRON BEAM AND PLASMA TECHNOLOGY FEP, Germany
    • BRUKER AXS GMBH, Germany
    • SMIT THERMAL SOLUTIONS BV, Netherlands
    • NEDERLANDSE ORGANISATIE VOOR TOEGEPAST NATUURWETENSCHAPPELIJK ONDERZOEK TNO, Netherlands
    • TECHNISCHE UNIVERSITAT DORTMUND, Germany
    • NORDMECCANICA SPA, Italy
    • NORSK ELEKTRO OPTIKK AS, Norway
    • AMIRES S.R.O., Czech Republic

 

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 862055.