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Azimi, M., Subramanian, A., Fan, J., Soavi, F., & Cicoira, F. (2023). Electrical and mechanical stability of flexible, organic electrolyte-gated transistors based on iongel and hydrogels. Journal of Materials Chemistry C, 11(14), 4623-4633. Lien externe
Bodart, C., Rossetti, N., Hagler, J., Chevreau, P., Chhin, D., Soavi, F., Schougaard, S. B., Amzica, F., & Cicoira, F. (2019). Electropolymerized poly(3,4-ethylenedioxythiophene) (PEDOT) coatings for implantable deep-brain stimulating microelectrodes. ACS Applied Materials & Interfaces, 11(19), 17226-17233. Lien externe
Barbosa, M., Oliveira, F. M. B., Meng, X., Soavi, F., Santato, C., & Orlandi, M. O. (2018). Tungsten oxide ion gel-gated transistors: how structural and electrochemical properties affect the doping mechanism. Journal of Materials Chemistry C, 6(8), 1980-1987. 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
da Silva Neres, L. C., Camargo, L. P., Azari, R. K., Garza, J. R. H., Soavi, F., Barbosa, M. S., & Santato, C. (2023). Metal oxide ion-gated transistors: A perspective on in operando characterizations and emerging Li-ion-based applications. MRS Communications, 2023, 9 pages. Lien externe
Garza, J. R. H., Camargo, L. P., Azari, R. K., Neres, L. C. S., Khaleel, S., Barbosa, M. S., Soavi, F., & Santato, C. (2023). A study of the doping process in Li⁴Ti⁵O¹² and TiO² battery electrode materials studied in the ion-gated transistor configuration. Journal of Materials Chemistry C, 7 pages. Lien externe
Gouda, A., Masson, A., Hoseinizadeh, M., Soavi, F., & Santato, C. (2022). Biosourced quinones for high-performance environmentally benign electrochemical capacitors via interface engineering. Communications Chemistry, 5(1), 98 (10 pages). Disponible
Gouda, A., Manioudakis, J., Naccache, R., Soavi, F., & Santato, C. (2021). 3D Network of Sepia Melanin and N- and, S-Doped Graphitic Carbon Quantum Dots for Sustainable Electrochemical Capacitors. Advanced Sustainable Systems, 5(10), 8 pages. Lien externe
Gouda, A., Soavi, F., & Santato, C. (2020). Eumelanin electrodes in buffered aqueous media at different pH values. Electrochimica Acta, 347, 6 pages. Lien externe
Kumar, P., Di Mauro, E., Zhang, S., Pezzella, A., Soavi, F., Santato, C., & Cicoira, F. (2016). Melanin-based flexible supercapacitors. Journal of Materials Chemistry C, 4(40), 9516-9525. Lien externe
Kumar, P., Yi, Z., Zhang, S., Sekar, A., Soavi, F., & Cicoira, F. (2015). Effect of channel thickness, electrolyte ions, and dissolved oxygen on the performance of organic electrochemical transistors. Applied Physics Letters, 107(5). Lien externe
Lan, T., Belanger, F., Soavi, F., & Santato, C. (2019). Ambient-stable, ion-gated poly[N-9- heptadecanyl-2,7-carbazole-alt-5,5-(4,7-di-2-thienyl-2,1,3-benzothiadiazole)] (PCDTBT) transistors and phototransistors. Organic Electronics, 74, 265-268. Lien externe
Lan, T., Soavi, F., Marcaccio, M., Brunner, P.-L., Sayago, J., & Santato, C. (2018). Electrolyte-gated transistors based on phenyl-C-61-butyric acid methyl ester (PCBM) films: bridging redox properties, charge carrier transport and device performance. Chemical Communications, 54(43), 5490-5493. Lien externe
Masson, A., Poli, F., Soavi, F., & Santato, C. (2022). Bridging Electronics and Micro Energy Storage. Dans Nanoporous Carbon for Soft and Flexible Energy Devices (Vol. 11, p. 59-84). Lien externe
Meng, X., Quenneville, F., Venne, F., Di Mauro, E., Işık, D., Barbosa, M., Drolet, Y., Natile, M. M., Rochefort, D., Soavi, F., & Santato, C. (2015). Electrolyte-Gated WO₃ Transistors: Electrochemistry, Structure, and Device Performance. Journal of Physical Chemistry C, 119(37), 21732-21738. Lien externe
Meng, X., Quenneville, F., Venne, F., Di Mauro, E., Işık, D., Barbosa, M., Drolet, Y., Natile, M. M., Rochefort, D., Soavi, F., & Santato, C. (2015). Erratum : Electrolyte-Gated WO₃ Transistors: Electrochemistry, Structure, and Device Performance. The Journal of Physical Chemistry C, 119(40), 23292-23292. Lien externe
Poli, F., Herrera, J. R., Lan, T., Kumar, P., Santato, C., & Soavi, F. (2023). Electronic properties of lithium-ion battery cathodes studied in ion-gated transistor configuration. iScience, 26(1), 105888 (12 pages). Lien externe
Poli, F., Lan, T., Herrera, J. R., Santato, C., Cicoira, F., & Soavi, F. (2020). Transbattery, a Novel Class of Device to Study Electronic Properties of Nanostructured Materials for Energetics. ECS Meeting Abstracts, MA2020-01(A02 : Lith), 325-325. Lien externe
Poli, F., Spina, G., Terella, A., Mashkour, M., Focarete, M. L., Fabiani, D., Santato, C., Momodu, D., Manyala, N., & Soavi, F. (2019). (Invited) Green Materials for Sustainable Supercapacitors. ECS Meeting Abstracts, MA2019-04(5), 290-290. 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
Rossetti, N., Luthra, P., Hagler, J., Lee, A. H. J., Bodart, C., Li, X., Ducharme, G., Soavi, F., Amilhon, B., & Cicoira, F. (2019). Poly(3,4-ethylenedioxythiophene) (PEDOT) Coatings for High Quality Electromyography Recording. ACS Applied Bio Materials, 2(11), 5154-5163. Lien externe
Subramanian, A., George, B., Bobbara, S. R., Valitova, I., Ruggeri, I., Borghi, F., Podesta, A., Milani, P., Soavi, F., Santato, C., & Cicoira, F. (2020). Ion-gated transistors based on porous and compact TiO₂ films: Effect of Li ions in the gating medium. AIP Advances, 10(6), 7 pages. Lien externe
Soavi, F., & Santato, C. (décembre 2017). Monolithically integrated supercapacitors and electrolyte-gated transistors [Communication écrite]. 24th International Display Workshops (IDW 2017), Sendai, Japan. Non disponible
Sayago, J., Patel, M., Cicoira, F., Soavi, F., & Santato, C. (2015). (Invited) Ionic Liquid-Gated PCBM Transistors: Pushing the Limit of the Doping in Organic Transistors. Meeting abstracts, MA2015-01(18), 1277-1277. Lien externe
Soavi, F., Sayago, J., Cicoira, F., & Santato, C. (2015). Transcap: A New Integrated Hybrid Supercapacitor and Electrolyte-Gated Transistor Device. Meeting abstracts, MA2015-01(1), 114-114. Lien externe
Sayago, J., Xiang, M., Quenneville, F., Liang, S., Bourbeau, É., Soavi, F., Cicoira, F., & Santato, C. (2015). Electrolyte-gated polymer thin film transistors making use of ionic liquids and ionic liquid-solvent mixtures. Journal of Applied Physics, 117(11), 6 pages. Lien externe
Soavi, F., Sayago, J., Cicoira, F., & Santato, C. (2014). Sub-1 V Electrolyte-Gated Polymer Transistors with Ionic Liquid Electrolyte and High-Surface Area Carbon Gate Electrode. ECS Meeting Abstracts, MA2014-01(23), 1026-1026. Lien externe
Tang, H., Kumar, P., Zhang, S., Santato, C., Soavi, F., & Cicoira, F. (2015). Conducting Polymer Transistors Making Use of Activated Carbon Gate Electrodes. Meeting abstracts, MA2015-01(18), 1280-1280. Lien externe
Tang, H., Kumar, P., Zhang, S., Yi, Z., De Crescenzo, G., Santato, C., Soavi, F., & Cicoira, F. (2015). Conducting polymer transistors making use of activated carbon gate electrodes. ACS Applied Materials & Interfaces, 7(1), 969-973. Lien externe
Valitova, I., Natile, M. M., Soavi, F., Santato, C., & Cicoira, F. (2017). Tin Dioxide Electrolyte-Gated Transistors Working in Depletion and Enhancement Modes. ACS Applied Materials & Interfaces, 9(42), 37013-37021. Lien externe
Valitova, I., Kumar, P., Meng, X., Soavi, F., Santato, C., & Cicoira, F. (2016). Photolithographically patterned TiO₂ films for electrolyte-gated transistors. ACS Applied Materials & Interfaces, 8(23), 14855-14862. Lien externe
Wünsche, J., Deng, Y., Kumar, P., Di Mauro, E., Josberger, E., Sayago, J., Pezzella, A., Soavi, F., Cicoira, F., Rolandi, M., & Santato, C. (2015). Protonic and electronic transport in hydrated thin films of the pigment eumelanin. Chemistry of Materials, 27(2), 436-442. Lien externe
Xu, R., Gouda, A., Caso, M. F., Soavi, F., & Santato, C. (2020). Light-enhanced Electrochemical Energy Storage of Synthetic Melanin on Conductive Glass Substrates. MRS Advances, 5(27-28), 1441-1448. Lien externe
Xu, R., Soavi, F., & Santato, C. (2019). An electrochemical study on the effect of metal chelation and reactive oxygen species on a synthetic neuromelanin model. Frontiers in Bioengineering and Biotechnology, 7, 227 (11 pages). Disponible
Xu, R., Gouda, A., Caso, M. F., Soavi, F., & Santato, C. (2019). Melanin: A Greener Route To Enhance Energy Storage under Solar Light. ACS Omega, 4(7), 12244-12251. Lien externe
Xu, R., Prontera, C. T., Di Mauro, E., Pezzella, A., Soavi, F., & Santato, C. (2017). An electrochemical study of natural and chemically controlled eumelanin. APL Materials, 5(12), 126108 (8 pages). Disponible
Yi, Z., Bettini, L. G., Tomasello, G., Kumar, P., Piseri, P., Valitova, I., Milani, P., Soavi, F., & Cicoira, F. (2017). Flexible conducting polymer transistors with supercapacitor function. Journal of Polymer Science Part B: Polymer Physics, 55(1), 96-103. Lien externe
Yi, Z., Natale, G., Kumar, P., Di Mauro, E., Heuzey, M.-C., Soavi, F., Perepichka, I. I., Varshney, S. K., Santato, C., & Cicoira, F. (2015). Ionic liquid-water mixtures and ion gels as electrolytes for organic electrochemical transistors. Journal of Materials Chemistry C, 3(25), 6549-6553. Lien externe
