Several products embed different types of electronic components, and they are even more fundamental in some of the European strategic markets (e.g. automotive). However, reference producers come from extra-EU countries in the far-east side of the world (e.g. China and Taiwan). Trying to cope with all these challenges and the current semiconductors crisis, the European Commission (EC) published (and in some cases is still working on) specific EU strategies/directives for automotive, e-waste (e.g. Digital Product Passport) and, specifically, semiconductors (e.g. European Chips Act). However, trying to make these sectors more sustainable, circular and resilient, it is mandatory to boost both EoL strategies (e.g. sorting, reuse, remanufacturing and recycling) and intra-EU production through innovations and investments. The current international scenario represents a good chance to decouple the European economy from both natural resource depletion (e.g. Critical Raw Materials - CRMs) and dependency from extra-EU supplies of strategic products. In order to better prove what the benefits are of a joined circular/resilient use of secondary resources, the automotive and mass electronics sectors have been identified as the reference contexts for establishing a set of innovative solutions. To this aim, the CIRC-UITS project will focus on demonstrate the improvement to the circularity of automotive and mass electronics sectors by reuse of semiconductors from different sources, as well as support the reuse & remanufacturing of semiconductors into new (high added-value) components and products in these sectors.

Car electronics is one of the most valuable source of Critical Raw Materials (CRMs) in cars. What it sounds so strange is the lack of interest of car manufacturers (and the whole automotive sector in general) towards the recovery of these valuable components from End-of-Life Vehicles (ELVs). Maybe, the complex set of barriers (e.g. regulatory, governance-based, market, technological, cultural, societal, gender, etc.) companies must cope with when implementing Circular Economy (CE) are making very difficult its adoption, by limiting potential benefits. All these data show as, even if car manufacturers are investing big capitals trying to shift their business towards more sustainable mobility concepts, the sectorial transition towards CE seems to be far from its completion. Especially at End-of-Life (EoL) phase, there are still many issues to be solved in order to functionally recover materials from cars (e.g. reuse recovered materials for the same purpose they were exploited originally) and the dependence from natural resources when producing new cars (even if electric/hybrid/fuel cell -powered) is still too high. This mandatory systemic transformation requires to all companies/sectors to redefine products lifecycles since the beginning, by considering CE already before to design them. To this aim, the TREASURE project wants to develop a scenario analysis simulation tool able to quantify positive and negative implications of CE, by leading the European automotive supply chain towards its full transition to CE.