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Camus, A., Reali, M., & Santato, C. (2022). Advances in high-resolution printed transistors: The case of bio-sourced organic materials. Current Opinion in Green and Sustainable Chemistry, 34, 100594 (14 pages). Lien externe
Camus, A., Reali, M., Rozel, M., Zhuldybina, M., Soavi, F., & Santato, C. (2022). High conductivity Sepia melanin ink films for environmentally benign printed electronics. Proceedings of the National Academy of Sciences, 119(32). Lien externe
Gao, Z., Reali, M., Yelon, A., & Santato, C. (2022). Dependence of charge carrier transport on molecular relaxations in glassy poly(3-hexylthiophene-2,5-diyl) (P3HT). Materials Advances, 3(21), 7815-7823. Lien externe
Gouda, A., Reali, M., Masson, A., Zvezdin, A., Byway, N., Rho, D., & Santato, C. (2021). Biodegradability and Compostability Aspects of Organic Electronic Materials and Devices. Dans Holuszko, M. E., Kumar, A., & Espinosa, D. C.R. (édit.), Electronic Waste : Recycling and Reprocessing for a Sustainable Future (255-297). Lien externe
Gouda, A., Reali, M., & Santato, C. (2020). Bio-Sourced, Potentially Biodegradable Materials for Fast Response Moisture Sensors. ECS Meeting Abstracts, MA2020-01(IMCS 11 :), 2425-2425. Lien externe
Gouda, A., Santato, C., Bobbara, S., & Reali, M. (2019). Light-assisted melanin-based electrochemical energy storage: physicochemical aspects. Journal of Physics D: Applied Physics, 53(4), 043003 (15 pages). Lien externe
Matos-Peralta, Y., Reali, M., Camus, A., Niyonkuru, D., Hosseinsizadeh, M., Gao, Z., & Santato, C. (2023). Nature as the source of materials for more sustainable organic electronics. Material Matters (1), 18-22. Lien externe
Niyonkuru, D., Camus, A., Reali, M., Gao, Z., Shadrack, D. M., Butyaev, O., Surtchev, M., & Santato, C. (2023). A nanoscale study of the structure and electrical response of Sepia eumelanin. Nanoscale Advances, 5(19), 5295-5300. Lien externe
Niyonkuru, D., Carriere, A., Ambrose, R., Gouda, A., Reali, M., Camus, A., Pezzella, A., Hill, I., & Santato, C. (2022). Correction to: Locating the bandgap edges of eumelanin thinfilms for applications in organic electronics (vol 97, pg 837, 2022). Journal of Chemical Technology and Biotechnology, 97(7), 1910-1910. Lien externe
Niyonkuru, D., Carriere, A., Ambrose, R., Gouda, A., Reali, M., Camus, A., Pezzella, A., Hill, I., & Santato, C. (2022). Locating the bandgap edges of eumelanin thin films for applications in organic green electronic. Journal of Chemical Technology and Biotechnology, 97(4), 837-843. Lien externe
Reali, M. (2021). Eumelanin for Organic Electronics : Film Formation and Transport Physics [Thèse de doctorat, Polytechnique Montréal]. Disponible
Reali, M., Saini, P., & Santato, C. (2021). Electronic and protonic transport in bio-sourced materials: a new perspective on semiconductivity. Materials Advances, 2(1), 15-31. Disponible
Reali, M., Camus, A., Beaulieu, G., De Angelis, J., Pellerin, C., Pezzella, A., & Santato, C. (2021). Eumelanin: From Molecular State to Film. Journal of Physical Chemistry C, 125(6), 3567-3576. Lien externe
Reali, M., Gouda, A., Bellemare, J., Ménard, D., Nunzi, J.-M., Soavi, F., & Santato, C. (2020). Electronic Transport in the Biopigment Sepia Melanin. ACS Applied Bio Materials, 3(8), 5244-5252. Lien externe
