D1.2 Specification sheets for 3 prototypes

D1.3 General framework of assessment and monitoring protocol

D8.1 Dissemination Communication and Explotation Plan

D8.2 NAIMA website

D8.5.Report on communication and dissemination activities

D9.2 Gender equality action plan

Polyanionic Materials at the Positive of Na-ion Batteries

Challenges of today for Na-based batteries of the future: From materials to cell metrics

Ionothermal Synthesis of Polyanionic Electrode Material Na3V2(PO4)2FO2 through a Topotactic Reaction

Towards Reversible High-Voltage Multi-Electron Reactions in Alkali-Ion Batteries Using Vanadium Phosphate Positive Electrode Materials

River driftwood pretreated via hydrothermal carbonization as a sustainable source of hard carbon for Na-ion battery anodes

Effect of the Particles Morphology on the Electrochemical Performance of Na3V2(PO4)2F3-yOy

Hard carbon porosity revealed by the adsorption of multiple gas probe molecules (N2, Ar, CO2, O2 and H2)

Particle nanosizing and coating with an ionic liquid: two routes to improve the transport properties of Na3V2(PO4)2FO2

Correlating Structural Properties with Electrochemical Behavior of Non-graphitizable Carbons in Na-Ion Batteries