Scientific publications

The scientific publications produced by the HyCARE project are also stored on the Zenodo repository on the HyCARE Project Community.

• 11/ 2022 – Dematteis, E. M., Barale, J., Capurso, G., Deledda, S., Sorby, H.M., Cuevas, F., Latroche, M., Baricco, M. (2022). In-situ neutron diffraction during reversible deuterium loading in Ti-rich and Mn-substituted Ti(Fe,Mn)0.90 alloys. Journal of Alloys and Compounds, Volume 935, Part 2, 2023, 168150, ISSN 0925-8388.

• 08/ 2022 – Barale, J., Dematteis, E.M., Capurso, G., Neuman, B., Deledda, S., Rizzi, P., Cuevas, F., Baricco, M., (2022). TiFe0.85Mn0.05 alloy produced at industrial level for a hydrogen storage plant. International Journal of Hydrogen Energy, Volume 47, Issue 69, 2022, Pages 29866-29880, ISSN 0360-3199

• 06/ 2022 – Dreistadt, D. M., Le, T. T., Capurso, G., von Colbe, J. M. B., Santhosh, A., Pistidda, C., … & Jepsen, J. (2022). An Effective Activation Method for Industrially Produced TiFeMn Powder for Hydrogen Storage. Journal of Alloys and Compounds, arXiv preprint arXiv:2205.09429.

• 06/ 2021 – Dematteis, E.M., Barale, J., Corno, M., Sciullo, A., Baricco, M., Rizzi, P. (2021). Solid-State Hydrogen Storage Systems and the Relevance of a Gender Perspective. Energies, 14(19), 6158.

• 04/ 2021 – Dematteis, E. M., Dreistadt, D. M., Capurso, G., Jepsen, J., Cuevas, F., & Latroche, M. (2021). Fundamental hydrogen storage properties of TiFe-alloy with partial substitution of Fe by Ti and Mn. Journal of Alloys and Compounds, 159925.

• 03/ 2021 – Dematteis, Erika Michela, Nicola Berti, Fermin Cuevas, Michel Latroche, and Marcello Baricco. Substitutional effects in TiFe for hydrogen storage: a comprehensive review. Materials Advances (2021).

• 01/ 2021 – Dematteis, E. M., Cuevas, F., & Latroche, M. (2021). Hydrogen storage properties of Mn and Cu for Fe substitution in TiFe0. 9 intermetallic compound. Journal of Alloys and Compounds, 851, 156075.

• 12/ 2020 – Dematteis, E. M., Dreistadt, D. M., Capurso, G., Jepsen, J., Cuevas, F., & Latroche, M. (2020). Fundamental hydrogen storage properties of TiFe-alloy with partial substitution of Fe by Ti and Mn. arXiv preprint arXiv:2012.00354.

• 11/ 2020 – Bannenberg, L. J., Heere, M., Benzidi, H., Montero, J., Dematteis, E. M., Suwarno, S., … & El Kharbachi, A. (2020). Metal (boro-) hydrides for high energy density storage and relevant emerging technologies. International Journal of Hydrogen Energy.

• 04/ 2020 – El Kharbachi, A., Dematteis, E. M., Shinzato, K., Stevenson, S. C., Bannenberg, L. J., Heere, M., … & Hauback, B. C. (2020). Metal hydrides and related materials. Energy carriers for novel hydrogen and electrochemical storage.

Scientific posters

The scientific posters published by the HyCARE project are also stored on the Zenodo repository on the HyCARE Project Community.

• 10/2022 – Dematteis E. M., – “HyCARE: Hydrogen Carrier per l’accumulo di energia rinnovabile” – INSTM al servizio del sistema produttivo e della società (evento online nell’ambito della terza edizione del Forum regionale per lo Sviluppo Sostenibile di Regione Lombardia)

• 09/2020 – Dematteis E. M., et al. – “HyCARE: Hydrogen CArrier for Renewable Energy storage” – First Materials MDPI Poster Competition, on Twitter – Second Prize Winner.

• 03/2020 – Dematteis E. M., et al. – “HyCARE: Hydrogen CArrier for Renewable Energy storage” – #RSCPoster Twitter Conference

• 10/2019 – Dematteis E. M., et al. – “HyCARE: Hydrogen CArrier for Renewable Energy storage” – Annual School on Neutron Diffraction Data Treatment using the FullProf Suite, ILL, Grenoble, France

• 06/2019 – Dematteis E. M., et al. – “HyCARE: Hydrogen CArrier for Renewable Energy storage” – Gordon Research Conference on Hydrogen-Metal System 2019, Castelldefels Spain