BATT4EU Partnership
SAFELOOP is proud contributor to BATT4EU partnership. Through it’s activities, BATT4EU aims to contribute to EU’s ambition making Europe the first climate-neutral continent by 2050, through widespread adoption of e-mobility and stationary electrical energy storage.
To make this possible, BATT4EU’s vision is to establish by 2030 in Europe the best in the world innovation ecosystem to boost a competitive, sustainable and circular European battery value chain and to drive the transformation towards a carbon-neutral society.
BATT4EU is a Co-programmed Partnership established under Horizon Europe, the Framework Programme for Research and Innovation of the European Union. BATT4EU is a collaboration of the European Commission and European battery R&I stakeholders that are united in the Batteries European Partnership Association - BEPA. We could say that BEPA represents the private-side of the BATT4EU Partnership.
You can learn more about the partnership here.
SAFELOOP’s innovations in anode and cathode active materials as well as enhanced EV battery separators, the project will particularly support Batt4EU’s specific objective on Support the development of differentiating technologies in battery materials, cell design and manufacturing and battery recycling.
©Helmholtz-Institut Münster, Mohn
Battery 2030+ is a large-scale research initiative with the aim to make Europe a world-leader in the development and production of the batteries of the future. These batteries will store more energy, have a longer life, be safer and more environmentally friendly than today’s batteries. They will facilitate the transition towards a climate-neutral society based on clean energy and a circular economy. This is a part of what is envisaged in the European Green Deal, as well as the European Action plan on Batteries and the European SET-plan.
The research projects from 2023 on are launched under the BATT4EU Partnership and based on the long-term Battery 2030+ roadmap. It outlines research actions and battery technology for real-world applications as part of a European effort to establish battery cell manufacturing. It focuses on a chemistry enabling approach, including lithium-based, post-lithium, solid-state, silicon, sodium, and future chemistries.