Category: Projects

Horizon EuropeSAFARI: SAFE AND SUSTAINABLE BY DESIGN GRAPHENE/MXENES HYBRIDS

Grant agreement ID:101135965Funded under: HORIZON-CL4-2023-DIGITAL-EMERGING-01-CNECT The SAFARI project aims to develop new 2D materials using sustainable and safe processes. The project focuses on creating hybrid formulations of MXenes and Graphene (Gr), which are known to possess unique and desirable properties such as thermal stability electrical conductivity. The goal of the project is to develop sustainable

Horizon Europe BIO-SUSHY: Sustainable surface protection by glass-like hybrid and biomaterials coatings

Grant agreement ID:101091464Funded under: HORIZON-CL4-2022-RESILIENCE-01 To meet EU key strategic orientations for the development of digital, enabling, and emerging technologies, sectors and value chains, the project BIO-SUSHY proposes a complete operating framework for the development of innovative repellent organic and hybrid coatings to challenge widespread yet polluting polyfluorinated alkyl substances. These coatings aiming both hydrophobic

Horizon Europe Sustain-a-Print (SaP): Sustainable materials and process for green printed electronics

Grant agreement ID:101070556Funded under: HORIZON.2.4 – Digital, Industry and Space  Sustain-a-Print (SaP) is a European Union (EU) Horizon project involving 11 stakeholders from 6 countries among universities, research institutes, large enterprises, and SME’s. It aims to replace fossil-based materials used for printed electronics (PE) production by using recycled, bio-based, and biodegradable alternatives. PE is one

Horizon Europe BIOSYSMO: BIOremediation systems exploiting SYnergieS for improved removal of Mixed pOllutants

Grant agreement ID:101060211Funded under: HORIZON-CL6-2021-ZEROPOLLUTION-01-10   BIOSYSMO is a 48-month action that will develop a computationally-assisted framework for designing and optimizing synergistic biosystems combining the required pathways and traits to achieve the most efficient degradation and sequestration of pollutant mixtures. These biosystems will comprise combinations of bacteria, fungi and plants containing the natural or engineered

Horizon Europe REDONDO: REversibly Designed crOss liNkeD pOlymers

Grant agreement ID:101058449Funded under: HORIZON_HORIZON-CL4-2021-RESILIENCE-01-11 REDONDO will develop reversibly cross-linked polyethylene (rPEX), rendering the up-to-date non-recyclable PEX a recyclable-by-design innovative polymer. Achievement of reversibility will be conducted via two different thermally reversible reactions for PE cross-linking: one based on C-S-S bonds and one exploiting the Diels Alder reaction. The produced rPEX will be characterized and

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