Plastic and paper based flexible materials and films are used in a wide range of daily life products e.g. in packaging, furniture surface finish, consumer electronic devices, architecture or in car windows. Applications represent well established multi-billion Euro markets. Key Enabling Technologies for a majority of these applications are based on nano-enabled functionalization of the surfaces. Today, Industry faces game-changing, critical challenges for societal acceptance and economic competitiveness: (1) Overcome plastic waste pollution and follow the European Strategy for Plastics in a Circular Economy towards the development of sustainable materials; (2) Keep pace with digitisation and get products ready for integration of smart systems and intelligent products. FlexFunction2Sustain will be the first European Initiative to support the Industry in overcoming these challenges through a sustainable Open Innovation Ecosystem. FlexFunction2Sustain will develop dedicated services to boost innovation for nano-functionalised flexible plastic and paper surfaces and membranes and offer those services to users, in particular SMEs, in all 28 EU countries through an independent single entry point (SEP) legal entity with multiple regional front offices. FlexFunction2Sustain connects complementary pilot lines to a set of 9 connected lab-2-fab facilities covering all major nano-surface processing techniques for (flexible) plastic and paper surfaces and membranes. The facilities and novel surface functionality will be demonstrated in six relevant industrial application scenarios. 20 pre-commercial pilot cases will demonstrate the Services of the FlexFunction2Sustain OITB The FlexFunction2Sustain OITB is prepared to support the client at any point in the innovation chain from TRL4 to TRL7 with and integrated technological, business development and verification/pre-certification service portfolio that helps the client to progress quickly through the innovation chain.

RealNano is an ambitious 36-month project that will develop rapid real-time nano-characterization materials tools & methodologies based on Spectroscopic Ellipsometry, Raman Spectroscopy, Imaging Photoluminescence and Laser Beam Induced Current Mapping that will be integrated to in-line R2R (Roll-to-Roll) Printing and OVPD (Organic Vapor Phase Deposition) Pilot-to-Production Lines (PPLs) for characterization of Organic & Printed Electronics (OE) nano- materials, layers, devices and products during their manufacturing. It will bring Digital Intelligence to manufacturing by combining, fast and non-destructive characterization tools and methodologies (high speed resolution at nanoscale, capable for multiple integration, advanced data management and analysis), to provide robust information and quality control on the nanomaterial properties and products quality, reliable manufacturing, without affecting the process. Objectives: O1. Develop rapid and real-time nanoscale, multi- modal & scale characterization tools/methodologies for OEs O2. Integrate the non-destructive nano-characterization tools in in-line R2R printing and OVPD PPLs O3. Develop characterization Protocols and Data Management for interoperability across industries O4. Demonstrate the tools in industrial OE processes for improvement of quality and reliability of products O5. Validation of OE product quality and manufacturability on commercial applications O6. Effective Transfer of results to industry by Open Innovation (Dissemination, Training, Networking/Clustering) and Management RealNano will revolutionize industrial manufacturing by strongly improving the speed of the characterization procedures in terms of performance (non-destructive with nm-scale resolution in ms time) and reliability (measure/analyze OE nanolayers over large areas). The in-line implementation to PPLs will achieve significant reduction of process time and resources needed to manufacture high quality OE products.