Técnicas Reunidas is participating in a new European research project under the Horizon Europe program focused on new flexible and sustainable electronic components.
Under the Horizon Europe program, the European Commission has approved the launch of a new research project, ECOTRON—Minimizing the Environmental Footprint of Printed Electronics, focused on developing new technologies for organic and flexible printed electronic substrates.
The European Commission’s Horizon Europe program aims to promote research, development, and innovation projects led by companies or research centers to provide technological solutions to today’s major European challenges
The project, called ECOTRON, is led by the Dutch technology center TNO and, with the participation of Técnicas Reunidas, also includes companies of European significance such as Janssen Pharmaceuticals, Polar, Signify, and Beckton Dickinson, as well as prestigious R&D&I centers such as ITENE, VTT, CEA, and the Polytechnic University of Milan.
The project, which aims to increase the environmental sustainability of current electronic devices through new materials and manufacturing and recycling processes for flexible organic substrates, aligns with the objectives of the Circular Economy and the concept of Safe and Sustainable by Design, promoted by European policies.
In recent years, the need for continuous data collection, real-time information, and greater connectivity has resulted in an exponential increase in electronic functionalities integrated into nearly all devices used in our daily lives. These functionalities include, among their main components, printed circuit boards (PCBs), which provide both mechanical support and electrical connectivity between the various components through an electronic circuit. The most commonly used PCBs consist of non-recyclable rigid epoxy fiber (FR4) substrates. The circuit is manufactured by chemically etching a superimposed copper layer, to which electronic components—such as chips and microsensors—are added via a high-temperature soldering process. Despite the widespread use of electronic devices, the dismantling and recycling of PCBs is still a very limited practice and is usually restricted to the recovery of certain metals. In contrast, the lifespan of electronic devices continues to shrink, with the resulting environmental impact due to the lack of management and accumulation of the waste generated. To mitigate this problem, the development of flexible organic printed electronics (FOPEs) emerges as one of the most promising alternatives to PCBs for achieving sustainable electronics through low-energy, chemical-free additive manufacturing processes using organic and recyclable materials.
The goal of the ECOTRON project is to drive the development of these new substrates in a holistic manner, including not only advancements and improvements in the materials that compose them, but also the integration of circular processes for their manufacturing and recycling, and the study of eco-design to facilitate these processes. With their final validation as components in everyday electronic devices, medical devices, wearables, and smart packaging, ECOTRON will contribute to the goal of advancing toward consumer electronics with innovative functionalities that are, at the same time, more sustainable.
The project is fully integrated into circular economy strategies, as its development will enable the reuse of all components from end-of-life devices through eco-design focused on recovery and greater efficiency in recycling processes, thereby reducing the use of natural resources, pollution, and waste, as well as CO2 emissions. In short, it will contribute to the fight against climate change by reducing emissions and the carbon footprint, in line with the United Nations Sustainable Development Goals (SDGs) and the European Union’s Green Deal.
Técnicas Reunidas will play a prominent role as a developer of new sustainable methodologies for the extraction of critical metals and the recycling of plastics, as well as in the integration of processes for the design of a future circular manufacturing plant, as well as an industrial partner in making the project’s advancements available to society.
The project will have a budget of 5 million euros, fully funded by the European Commission, for a total duration of 4 years.