TRaining In cutting-eDge battERy technologieS: high-performance materials and researchers for future electrochemical storage

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-DNID: 101120432
EC Contribution
€27,122
Consortium Size
21 orgs
Start Year
2024
Summary

Secondary batteries are critical technologies to ensure the forthcoming energy transition, a main aspect of the European Green Deal, in order to achieve carbon-neutrality by 2050. There is thus a strong need to rapidly develop the future high energy density, low cost, and safe batteries to support the massive and rapidly developing EV market and to secure the EU industrial and economic growths. RIDERS aims to establish a high-quality research and training program with ground-breaking objectives spanning over the full value chain of battery production: from the design, processing and multiscale characterization of original advanced materials (i.e. electrodes, separators, polymer electrolytes, binders) to their implementation into EU Gen. 4a and Gen. 5 batteries, as well as their properties and performance assessment (i.e. advanced electrochemistry and interfacial science, operando analyses and theoretical modelling). RIDERS research and training program rely on the multidisciplinary expertise of 10 internationally renowned academic beneficiaries and 8 industrial partners (including 3 SMEs) originating from 7 European countries. RIDERS will provide to 10 early-stage researchers / doctoral candidates (DCs) a unique combination of advanced and transferable skills within an innovative, multidisciplinary and inter-sectoral scientific environment. The research program will address the development of cutting-edge battery technologies to contribute to the EU strategic energy independence. RIDERS will offer DCs a unique combination of local and network-wide trainings in the fields of advanced materials and electrochemical storage: future strongholds of the EU industries and key provider of new jobs in the forthcoming decades. This, together with their training in transferrable skills, will improve their career prospects as high-quality researchers, and will prepare them as highly attractive candidates for industry, academia or future entrepreneurs.

Consortium (21)

Project Results (3)

Source: CORDIS, the EU research results database.

Publications (3)
Enhancing the Performances of Lithium Batteries through Functionalization of Porous Polyolefin Separators with Cross-Linked Single-Ion Polymer Electrolytes
ACS Applied Materials & Interfaces· 2025DOI
Valentin Vinci, Dimitri Flachard, Helena Henke, Renaud Bouchet, Eric Drockenmuller
Poly(1,2,4-triazolium)s as the rising generation of functional poly(ionic liquid)s
Progress in Polymer Science· 2025DOI
Xinghao Li, Eric Drockenmuller, Pierre Stiernet, Weiyi Zhang, Jiayin Yuan
Unveiling the Electrolyte and Solid Electrolyte Interphase in Sodium Ion Batteries: Mechanisms, Progress, and Perspectives
Advanced Materials· 2025DOI
Meng Li, Chengzhi Sun, Ruoqi Zhang, Man Qi, Zeen Wu, Xin Zhang, Yu Zhang, Jiayin Yuan, Naiqing Zhang