DESIgning and REcycling sustainable Electronic boards for a EUropean circular economy

European Innovation CouncilHORIZON-EICID: 101161251
EC Contribution
โ‚ฌ40,000
Consortium Size
11 orgs
Start Year
2024
โ–ถSummary

DESIRE4EU aims at proving the concept of a radically new sustainable approach to produce, use and recycle electronic printed circuit boards (PCB) that combine technical performance, economic and ecological efficiency throughout their life cycle.The projectโ€™s vision is of sustainable, circular PCB manufactured in Europe using bio-based and biodegradable materials. It disrupts current paradigms and significantly reduces harmful waste, enabling fast and ecological copper recovery, above 70wt% of PCB ultimate waste elimination and 1-2% electronics sector CO2 emissions decrease by combining material science, green chemistry, electronics, environmental microbiology, Life Cycle and Value Chain Assessments.Our holistic approach considers boards as a complete system and develops a proof of concept and guidelines for exemplary, fully circular sustainable electronics solutions contributing to European leadership, resilience, and independence. We envision a world-first by 2030: industrially credible, compliant, bio-based, rigid boards, with an innovative and environmentally friendly recycling process for critical metals.DESIRE4EU has 4 SMART specific objectives: (1) The complete assembly of a technology compliant bio-based multilayer PCB, (2) An environmentally friendly and time-efficient bioleaching process, (3) A circular by design approach, materialized by guidelines for further uptake, (4) An advanced, cost-effective but large proof of concept attracting 2000 โ€“ 5000 students, responsible citizens and industries, from learners to prosumers.The consortium gathers 8 academic and private partners from 5 European countries, including 2 SMEs and 1 start-up. DESIRE4EU is managed by GINP, represented by Full Professor P. Xavier, who has extensive scientific and management experience. The partners expect at least 7 Open Access articles and 3 patents for this disruptive technology to be exploited in the field of class 2 rigid boards, with a potential market of โ‚ฌ436 million.

Consortium (11)