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European Industrial Doctorate in Innovative POLYmers for Lithium Battery TEchnologies

Deliverables

Network training events

All the fellows will participate in the Network training activities organized in the frame of POLYTEEID Project1 Progress Meetings PM2 Videoconference meetings of ESRs3 5 Workshops M12 M18 M24 M324 POLYTE Summer School M305 Conference M36 Toyota Frontier Research Forum Battery

Enrolment of all ESRs in Doctoral programs

All the ESRs will enrolled in the Doctoral Programme of the academic beneficiary UPV/EHU 'Master in Chemistry and Polymers'

Awarding Doctoral degrees

At the end of the project we expect all the fellows are awarded with a doctoral degree

Published papers & Congresses abstracts & Patent application

It is expected that the 3 ESRs will be the leading authors or coauthor of between 1015 publications at the end of the PhDs in high level scientific journals The main results of the project related to new materials or simple all solid state battery cell configurations with improved safety and performance presenting potential for practical applications will be protected by filing patent applications

Supervisory Board of the network

The supervisory board will be composed by two principal investigators one from UPV/EHU (Prof. D. Mecerreyes) and one from TME (Dr. Fanny Bardé), one representative of the ESRs, one experienced Professor at UPV/EHU and one international researcher with high reputation in the field. The Supervisory board will: (i) supervise the implementation and their innovation within the state-of-art of the research training programmes, (ii) supervise the elaboration and revision of the personal career development plan by each ESR (iii) give advices on constant improvement of the POLYTE-EID research and training activities.

Communication report

The Communication and Engagement strategy plan will be reported at the end of the project

POLYTE-EID Webpage

A website for POLYTE-EID will be set up before the start of the project

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Publications

Single-Ion Polymer/LLZO Hybrid Electrolytes with High Lithium Conductivity

Author(s): Marine Lechartier; Luca Porcarelli; Haijin Zhu; Maria Forsyth; Aurelie Gueguen; Laurent Castro; David Mecerreyes
Published in: Materials Advances, 3, 2022, Page(s) 1139-1151, ISSN 2633-5409
Publisher: Royal Society of Chemistry
DOI: 10.1039/d1ma00857a

Single- Versus Dual-Ion UV-Cross-Linked Gel Polymer Electrolytes for Li–O2 Batteries

Author(s): Marta Alvarez Tirado; Marta Alvarez Tirado; L. Castro; Gregorio Guzmán-González; Luca Porcarelli; Luca Porcarelli; David Mecerreyes; David Mecerreyes
Published in: ACS Applied Energy Materials, 4/1, 2021, Page(s) 295-302, ISSN 2574-0962
Publisher: ACS Publications
DOI: 10.1021/acsaem.0c02255

Single‐ion lithium conducting polymers with high ionic conductivity based on borate pendant groups

Author(s): G. Guzmán-González, S. Vauthier, M. Alvarez-Tirado, S. Cotte, L. Castro, A. Guéguen, N. Casado, D. Mecerreyes
Published in: Angewandte Chemie International Editions, 61/7, 2022, Page(s) e202114024, ISSN 1521-3773
Publisher: German Chemical Society
DOI: 10.1002/anie.202114024

Designing boron-based single-ion gel polymer electrolytes for lithium batteries by photopolymerization

Author(s): Alvarez-Tirado, M., Guzmán-González, G., Vauthier, S., Cotte, S., Guéguen, A., Castro, L. and Mecerreyes, D.
Published in: Macromolecular Chemistry and Physics, 2100407, 2022, Page(s) 2100407, ISSN 1521-3935
Publisher: Wiley online
DOI: 10.1002/macp.202100407