The M.A.S.T.E.R. aims to advance a new concept for the surface design of electrode materials to achieve reversible capacities that approach the theoretical ones. The proof-of-concept will be validated by the construction of a full Na-ion battery. This battery is targeting to reach the EGD’s goals for introducing of affordable large-scale energy storage technology. The specific objectives are:
(i) to understand the reactions at the electrode surfaces that currently prevent achieving the theoretical capacity;
(ii) to exploit this knowledge to facilitate the elaboration of high-performance electrodes;
(iii) to integrate the surface-modified el electrodes into a full Na-ion battery;
(iv) to maximize the impact of the project beyond the Na-ion batteries.
The most innovative output is the MASTER database, by which the lead candidates as electrodes will be selected. The consortium comprises multidisciplinary teams from Bulgaria, Spain, and Turkey and it covers the full value chain from TRL2 to TRL4.
Mastering Electrode Surface to Achieve Ultra-High Reversible Capacity