Paper-based printed electronics are new recyclable electronic devices with technical, economic and environmental advantages. Additionally, nanocellulose (NC) based printed electronics, produced mainly from wood pulp, offer better printability and performance than paper. Therefore, the integration of NC-based printed electronics and biosensors is a promising source of innovation in the biomedical industry. In GREENSENSE we propose the development of a sustainable NC-based biosensing platform for Drug-of-Abuse (DoA) analysis, that integrates high-added value printed electronic components (a new biosensor, an NFC communication system, an energy storage system and a display) with a silicon microchip to provide it with multi sensor data processing, autonomy and wireless communication and that is easy for the user to read. The main goal of the project will be the use of NC as: substrate for the printed electronics, lamination film for the encapsulation of the final device and as active component in the formulation of functional inks (conductive, electrochemical, electrolyte and dielectric). In all cases the NC surface will be functionalized to be printable, with good barrier properties and compatible with the functional inks (bioactive, conductive, dielectric, electrochemical, electrochromic and electrolyte). Pilot lines and high throughput, high precision and cost-effective S2S screen-printing and ink-jet printing techniques will be used to produce materials and components at large-scale. Two types of DoA biosensing platforms to eradicate the consume of drugs among the society will be developed: a strip-based platform (2nd generation) that will be connected to a Smartphone and a strip+reader-based platform (3rd generation) that will also include a display. The final flexible and recyclable NC-based biosensing platform will be mass producible with ultra-low power consumption and, therefore, cost-effective, sustainable and environmentally friendly.

X-TREME 6G proposal relies on a unique industry led consortium to provide a foundational open microelectronics platform in Europe with the objective to create and design key disruptive next generation chiplets and chipsets for 6G use cases. The idea is to break-up the full potential of best-in-class Silicon BiCMOS, InP and heterogeneous 3D integration for high capacity radio access technologies such as wireless back-hauling at sub-TeraHertz frequencies, Joint Communication And Sensing, Non Terrestrial Networks and Network as a Sensor. New classes of chipsets will unleash the full potential of 6G and enable the emergence of new applications through specific developments for the underpinning novel microelectronic technologies. X-TREME 6G valorizes also resource efficient 6G algorithms and an ML/AI software toolbox for computationally efficient silicon-ready baseband extensions. Part of the SNS “Microelectronic Lighthouse” visionary initiative, the proposal’s ambition is to establish and maintain a sustainable open platform for the duration of the SNS program and beyond, to support 6G verticals. By nurturing the links with the emerging Chips JU pilot lines, the platform acts as a first fabric to accelerate joint initiatives between SNS and Chips JUs. In a nutshell, X-TREME 6G will provide tangible contributions towards an experimentation EU framework for 6G, demonstrating the full benefit of the newly developed chipsets and chiplets for a set of emerging 6G high potential use cases (wireless back-hauling, JCAS, NTN, NaS); while being open to dynamically support the emerging 6G ecosystem (SMEs, Industries, Service Providers, Government etc.) and evaluate additional 6G challenges and expectations. By strengthening and extending the 6G functionality and microelectronics supply chain, X-TREME 6G contributes towards a network-centric democratized and open 6G ecosystem able to release the current hyperscaler’s market embrace, while empowers European Industry at large.