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Abbasipour, M., Kateb, P., Cicoira, F., & Pasini, D. (2023). Stretchable kirigami-inspired conductive polymers for strain sensors applications. Flexible and printed electronics, 8, 024003. Disponible
Azimi, M., Kim, C.-, Fan, J., & Cicoira, F. (2023). Effect of Ionic Conductivity of Electrolyte on Printed Planar and Vertical Organic Electrochemical Transistors. Faraday Discussions, 246, 540-555. Lien externe
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
Azimi, M., Subramanian, A., Roslan, N. A., & Cicoira, F. (2021). Flexible organic ion-gated transistors with low operating voltage and light-sensing application. Journal of Physics: Materials, 4(2), 024001 (11 pages). Disponible
Albano, L. G. S., Di Mauro, E., Kumar, P., Cicoira, F., Graeff, C. F. O., & Santato, C. (2016). Novel insights on the physicochemical properties of eumelanins and their DMSO derivatives. Polymer International, 65(11), 1315-1322. Lien externe
Bodart, C., Rossetti, N., & Cicoira, F. (2019). Electrodeposited poly(3,4-ethylenedioxythiophene) (PEDOT) for Invasive Recording and Stimulating Neural Electrodes. ECS Meeting Abstracts, MA2019-01(25), 1250-1250. 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
Boubée de Gramont, F., Shiming, Z., Tomasello, G., Kumar, P., Sarkissian, A., & Cicoira, F. (2017). Highly stretchable electrospun conducting polymer nanofibers. Applied Physics Letters, 111(9), 5 pages. Lien externe
Berezhetska, O., Liberelle, B., De Crescenzo, G., & Cicoira, F. (2015). A simple approach for protein covalent grafting on conducting polymer films. Journal of Materials Chemistry B, 3(25), 5087-5094. Lien externe
Bayatpour, S., Ladouceur, S., Zysman-Colman, E., Cicoira, F., & Santato, C. (2011). Novel Light Emitting Electrochemical Cells Based on Iridium (III) Ionic Complexes. ECS Meeting Abstracts, MA2011-01(20), 1282-1282. Lien externe
Bertolazzi, S., Wünsche, J., Cicoira, F., & Santato, C. (2011). Tetracene thin film transistors with polymer gate dielectrics. Applied Physics Letters, 99(1), 3 pages. Lien externe
Brusso, J. L., Hirst, O. D., Dadvand, A., Ganesan, S., Cicoira, F., Robertson, C. M., Oakley, R. T., Rosei, F., & Perepichka, D. F. (2008). Two-dimensional structural motif in thienoacene semiconductors: synthesis, structure, and properties of tetrathienoanthracene isomers. Chemistry of Materials, 20(7), 2484-2494. Lien externe
Benvenuti, C., Chiggiato, P., Cicoira, F., L'Aminot, Y., & Ruzinov, V. (juin 2003). Vacuum properties of palladium thin film coatings [Communication écrite]. European Vacuum Congress & the 8th European Vacuum Conference & the 2nd Annual Conference of the German Vacuum Society, Berlin, Germany. Publié dans Vacuum, 73(2). Lien externe
Benvenuti, C., Cazeneuve, J. M., Chiggiato, P., Cicoira, F., Santana, A. E., Johanek, V., Ruzinov, V., & Fraxedas, J. (1999). A novel route to extreme vacua: the non-evaporable getter thin film coatings. Vacuum, 53(1-2), 219-225. Lien externe
Benvenuti, C., Chiggiato, P., Cicoira, F., & Ruzinov, V. (septembre 1997). Decreasing surface outgassing by thin film getter coatings [Communication écrite]. 6th International Workshop on Electronic Properties of Metal/Non-Metal Microsystems (EPMS 97). Publié dans Vacuum, 50(1-2). Lien externe
Benvenuti, C., Chiggiato, P., Cicoira, F., & L'Aminot, Y. (1998). Nonevaporable getter films for ultrahigh vacuum applications. Journal of vacuum science and technology. A, Vacuum, surfaces, and films, 16(1), 148-154. Lien externe
Cicoira, F. (2022). Stretching out transistors. Nature Materials, 21(5), 495-497. Lien externe
Cicoira, F. (2021). Flexible, Stretchable and Healable Electronics. Meeting abstracts, MA2021-01(35), 1113-1113. Lien externe
Cicoira, F., Jurchescu, O. D., & McCulloch, I. (août 2021). Flexible, stretchable, and healable transistors [Présentation]. Dans SPIE Organic Photonics + Electronics, San Diego, California, United States. Lien externe
Cicoira, F. (2020). Stretchable and Healable Bioelectronics. Meeting abstracts, MA2020-01(27), 1977-1977. Lien externe
Cicoira, F. (2019). Flexible, Stretchable and Healable Electronics. ECS Meeting Abstracts, MA2019-01(28), 1369-1369. Lien externe
Chhin, D., Polcari, D., Bodart-Le Guen, C., Tomasello, G., Cicoira, F., & Schougaard, S. B. (octobre 2017). Diazonium-based anchoring of PEDOT on Pt/Ir electrodes via diazonium chemistry [Communication écrite]. Brain and Electrochemistry Symposium, National Harbor, Maryland. Publié dans Journal of The Electrochemical Society, 165(12). Disponible
Cicoira, F. (août 2018). Flexible, Stretchable and Healable Electronics [Résumé]. International Flexible Electronics Technology Conference (IFETC 2018), Ottawa, ON (1 page). Lien externe
Coppede, N., Valitova, I., Mahvash, F., Tarabella, G., Ranzieri, P., Iannotta, S., Santato, C., Martel, R., & Cicoira, F. (2014). Titanyl phthalocyanine ambipolar thin film transistors making use of carbon nanotube electrodes. Nanotechnology, 25(48). Lien externe
Cicoira, F., & Santato, C. (édit.) (2013). Organic Electronics: Emerging Concepts and Technologies. Lien externe
Cicoira, F., Coppedé, N., Martel, R., & Iannotta, S. (2011). Ambipolar copper phthalocyanine transistors with carbon nanotube array electrodes. Applied Physics Letters, 98(18), 3 pages. Lien externe
Cicoira, F., Aguirre, C. M., & Martel, R. (2011). Making contacts to n-type organic transistors using carbon nanotube arrays. ACS Nano, 5(1), 283-290. Lien externe
Cicoira, F., Sessolo, M., Yaghmazadeh, O., DeFranco, J. A., Yang, S. Y., & Malliaras, G. G. (2009). Influence of device geometry on sensor characteristics of planar organic electrochemical transistors. Advanced Materials, 22(9), 1012-1016. Lien externe
Cicoira, F., Bernards, D. A., & Malliaras, G. G. (2008). Conducting polymer transistors for sensor applications. Dans Nano and Microsensors for Chemical and Biological Terrorism Surveillance (177-201). Lien externe
Cicoira, F., Santato, C., Dadvand, A., Harnagea, C., Pignolet, A., Bellutti, P., Xiang, Z., Rosei, F., Meng, H., & Perepichka, D. F. (2008). Environmentally stable light emitting field effect transistors based on 2-(4-pentylstyryl)tetracene. Journal of Materials Chemistry, 18(2), 158-161. Lien externe
Cicoira, F., Santato, C., & Rosei, F. (2008). Two-dimensional nanotemplates as surface cues for the controlled assembly of organic molecules. Dans STM and AFM Studies on (Bio)molecular Systems: Unravelling the Nanoworld (Vol. 285, 203-267). Lien externe
Cicoira, F., Miwa, J. A., Perepichka, D. F., & Rosei, F. (2007). Molecular assembly of rubrene on a metal/metal oxide nanotemplate. Journal of Physical Chemistry A, 111(49), 12674-12678. Lien externe
Cicoira, F., & Santato, C. (2007). Organic light emitting field effect transistors: advances and perspectives. Advanced Functional Materials, 17(17), 3421-3434. Lien externe
Cicoira, F., Miwa, J. A., Melucci, M., Barbarella, G., & Rosei, F. (2006). Ordered assembly of -quinquethiophene on a copper oxide nanotemplate. Small, 2(11), 1366-1371. Lien externe
Cicoira, F., Santato, C., Melucci, M., Favaretto, L., Gazzano, M., Muccini, M., & Barbarella, G. (2006). Organic light‐emitting transistors based on solution‐cast and vacuum‐sublimed films of a rigid core thiophene oligomer. Advanced Materials, 18(2), 169-174. Lien externe
Cicoira, F., Hoffmann, P., Olsson, C. O. A., Xanthopoulos, N., Mathieu, H. J., & Doppelt, P. (2005). Auger electron spectroscopy analysis of high metal content micro-structures grown by electron beam induced deposition. Applied Surface Science, 242(1-2), 107-113. Lien externe
Cicoira, F., Santato, C., Dinelli, F., Murgia, M., Loi, M. A., Biscarini, F., Zamboni, R., Heremans, P., & Muccini, M. (2005). Morphology and field-effect-transistor mobility in tetracene thin films. Advanced Functional Materials, 15(3), 375-380. Lien externe
Cicoira, F., Santato, C., Melucci, M., Favaretto, L., Gazzano, M., Muccini, M., & Giovanna, B. (octobre 2005). Soluble and thermally stable molecules for organic light-emitting transistors [Communication écrite]. 2005 Joint Fall Meeting of the New England Sections of the APS and AAPT, Burlington, Vermont. Lien externe
Cicoira, F., Leifer, K., Hoffmann, P., Utke, I., Dwir, B., Laub, D., Buffat, P. A., Kapon, E., & Doppelt, P. (2004). Electron beam induced deposition of rhodium from the precursor [RhCl(PF3)2]2: Morphology, structure and chemical composition. Journal of Crystal Growth, 265(3-4), 619-626. Lien externe
Cicoira, F. (2002). Electron beam induced deposition of rhodium nanostructures [Thèse de doctorat, École Polytechnique Fédérale de Lausanne]. Non disponible
Di Mauro, E., Li, X., Pellerin, C., Cicoira, F., & Santato, C. (2019). Smart Packaging in the Sustainability Challenge: Eumelanin as a UV-absorption Enhancer of Polymers. IEEE Transactions on Nanotechnology, 18, 1160-1165. Lien externe
De Oliveira Silva, G. V., Subramanian, A., Meng, X., Zhang, S., Barbosa, M. S., Baloukas, B., Chartrand, D., Pérez, J. C. G., Orlandi, M. O., Soavi, F., Cicoira, F., & Santato, C. (2019). Tungsten Oxide Ion-Gated Phototransistors using Ionic Liquid and Aqueous Gating Media. Journal of Physics D: Applied Physics, 52(30), 10 pages. Lien externe
Di Mauro, E., Carpentier, O., Yañez Sanchez, S. I., Ignoumba-Ignoumba, N., Lalancette-Jean, M., Zhang, S., Lefebvre, J., Graeff, C. F. O., Cicoira, F., & Santato, C. (2016). Resistive switching controlled by the hydration level in thin films of the biopigment eumelanin. Journal of Materials Chemistry C, 4(40), 9544-9553. Lien externe
d'Ischia, M., Wakamatsu, K., Cicoira, F., Di Mauro, E., Garcia-Borron, J. C., Commo, S., Galván, I., Ghanem, G., Kenzo, K., Meredith, P., Pezzella, A., Santato, C., Sarna, T., Simon, J. D., Zecca, L., Zucca, F. A., Napolitano, A., & Ito, S. (2015). Melanins and melanogenesis: from pigment cells to human health and technological applications. Pigment Cell & Melanoma Research, 28(5), 520-544. Lien externe
Dadvand, A., Cicoira, F., Yu, K. C., Balendkova, E. S., Osuna, R. M., Rosei, F., Nenajdenko, V., & Perepichka, D. F. (2009). Heterocirculenes as a new class of organic semiconductors. Cheminform, 40(12). Lien externe
Dadvand, A., Cicoira, F., Yu, K. C., Balendkova, E. S., Osuna, R. M., Rosei, F., & Perepichka, D. F. (2008). Heterocirculenes as a new class of organic semiconductors. Chemical Communications (42), 5354-5356. Lien externe
Huyer, C., Modafferi, D., Aminzare, M., Ferraro, J., Abdali, Z., Roy, S., Saldanha, D. J., Wasim, S., Alberti, J., Feng, S., Cicoira, F., & Dorval Courchesne, N.-M. (2023). Fabrication of Curli Fiber-PEDOT:PSS biomaterials with tunable self-healing, mechanical, and electrical properties. ACS Biomaterials Science and Engineering, 9(5), 2156-2169. Lien externe
Hagler, J., Yeu, J., Zhou, X., Ducharme, G., Amilhon, B., & Cicoira, F. (2022). Electrodeposited PEDOT:BF4 Coatings Improve Impedance of Chronic Neural Stimulating Probes In Vivo. Advanced Materials Interfaces, 9(35), 10 pages. Lien externe
Hagler, J., Kim, C., Kateb, P., Yeu, J., Gagnon-Lafrenais, N., Gee, E., Audry, S., & Cicoira, F. (2022). Flexible and stretchable printed conducting polymer devices for electrodermal activity measurements. Flexible and Printed Electronics, 7(1), 16 pages. Lien externe
Hoffmann, P., Utke, I., & Cicoira, F. (juin 2002). Limits of 3-D nanostructures fabricated by focused electron beam (FEB) induced deposition [Communication écrite]. 10th International Symposium on Nanostructures: Physics and Technology, USA. Lien externe
Hoffmann, P., Utke, I., Jaenchen, G., Cicoira, F., & Rohner, J. (2002). Focused electron beam deposition of one-, two-, and three-dimensional nano-structures for biological applications. European Cells and Materials, 2(supp. 1), 91-92. Non disponible
Hoffmann, P., Utke, I., Cicoira, F., Dwir, B., Leifer, K., Kapon, E., & Doppelt, P. (avril 2000). Focused electron beam induced deposition of gold and rhodium [Communication écrite]. Materials Development for Direct Write Technologies (Symposium V), Warrendale, PA, USA. Lien externe
Isik, D., Shu, Y., Tarabella, G., Coppede, N., Iannotta, S., Lutterotti, L., Cicoira, F., Anthony, J. E., & Santato, C. (2011). Ambipolar organic thin film transistors based on a soluble pentacene derivative. Applied Physics Letters, 99(2). Lien externe
Kateb, P., Fan, J., Jinsil, K., Zhou, X., Lodygensky, G. A., & Cicoira, F. (2023). Printable, adhesive, and self-healing dry epidermal electrodes based on PEDOT:PSS and polyurethane diol. Flexible and printed electronics, 8(4), 045006 (14 pages). Disponible
Kim, C.-H., Azimi, M., Fan, J., Nagarajan, H., Wang, M., & Cicoira, F. (2023). All-printed and stretchable organic electrochemical transistors using a hydrogel electrolyte. Nanoscale, 15(7), 3263-3272. 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
Lerond, M., Cicoira, F., & Skene, W. G. (2022). Enhancing the performance of transparent and highly stretchable organic electrochemical transistors by acid treatment and copolymer blending of electrospun PEDOT:PSS fibers. Journal of Materials Chemistry C, 10(32), 11739-11746. Lien externe
Lerond, M., Raj, M. A., Wu, V., Cicoira, F., & Skene, W. G. (2022). An intrinsically stretchable and bendable electrochromic device. Nanotechnology, 33(40), 11 pages. Lien externe
Li, Y., Zhou, X., Sarkar, B., Gagnon-Lafrenais, N., & Cicoira, F. (2022). Recent Progress on Self-Healable Conducting Polymers. Advanced Materials, 34(24), e2108932 (22 pages). Lien externe
Lerond, M., Subramanian, A., Skene, W. G., & Cicoira, F. (2021). Combining Electrospinning and Electrode Printing for the Fabrication of Stretchable Organic Electrochemical Transistors. Frontiers in Physics, 9, 708914 (11 pages). Lien externe
Li, Y., Zhang, S., Li, X., Unnava, V. R. N., & Cicoira, F. (2020). Highly Stretchable PEDOT:PSS Organic Electrochemical Transistors Achieved Via Polyethylene Glycol Addition. Meeting abstracts, MA2020-01(52), 2913-2913. Lien externe
Li, Y., Li, X., Zhang, S., Liu, L., Hamad, N., Bobbara, S. R., Pasini, D., & Cicoira, F. (2020). Autonomic Self-Healing of PEDOT:PSS Achieved Via Polyethylene Glycol Addition. Advanced Functional Materials, 30(30), 2002853 (9 pages). Lien externe
Li, Y., Zhang, S., Hamad, N., Kim, K., Liu, L., Lerond, M., & Cicoira, F. (2020). Tailoring the Self-Healing Properties of Conducting Polymer Films. Macromolecular Bioscience, 20(11), 2000146 (8 pages). Lien externe
Li, Y., Zhang, S., Li, X., Unnava, V. R. N., & Cicoira, F. (2019). Highly stretchable PEDOT:PSS organic electrochemical transistors achieved via polyethylene glycol addition. Flexible and Printed Electronics, 4(4), 9 pages. Lien externe
Lipton-Duffin, J. A., Miwa, J. A., Kondratenko, M., Cicoira, F., Sumpter, B. G., Meunier, V., Perepichka, D. F., & Rosei, F. (2010). Step-by-step growth of epitaxially aligned polythiophene by surface-confined reaction. Proceedings of the National Academy of Sciences of the United States of America, 107(25), 11200-11204. Lien externe
Luisier, A., Utke, I., Bret, T., Cicoira, F., Hauert, R., Rhee, S. W., Doppelt, P., & Hoffmann, P. (2005). Comparative study of cu-precursors for 3D focused electron beam induced deposition. Journal of The Electrochemical Society, 152(9), C590-C593. Lien externe
Miwa, J. A., Cicoira, F., Bedwani, W. S., Lipton-Duffin, J., Perepichka, D. F., Rochefort, A., & Rosei, F. (2008). Self-assembly of Rubrene on copper surfaces. Journal of Physical Chemistry C, 112(27), 10214-10221. Lien externe
Miwa, J. A., Cicoira, F., Lipton-Duffin, J., Perepichka, D. F., Santato, C., & Rosei, F. (2008). Self-assembly of rubrene on Cu(111). Nanotechnology, 19(42), 424021-424026. Lien externe
Milita, S., Santato, C., & Cicoira, F. (2006). Structural investigation of thin tetracene films on flexible substrate by synchrotron X-ray diffraction. Applied Surface Science, 252(22), 8022-8027. Lien externe
Milita, S., Servidori, M., Cicoira, F., Santato, C., & Pifferi, A. (2006). Synchrotron X-ray investigation of tetracene thin films grown at different deposition fluxes. Nuclear Instruments & Methods in Physics Research. Section B, Beam Interactions With Materials and Atoms, 246(1), 101-105. Lien externe
Melpignano, P., Sinesi, S., Rotaris, G., Antonipieri, M., Cicoira, F., Loi, M. A., Muccini, M., Zamboni, R., Gale, M. T., Gale, M. T., & Westenhofer, S. (février 2003). Optical coupling of flexible microstructured organic light sources for automotive applications [Communication écrite]. 5th International Topical Conference on Optical Probes of Conjugated Polymers and Organic and Inorganic Nanostructures, Venice, Italy. Publié dans Synthetic Metals, 139(3). Lien externe
Owens, R., Kjall, P., Titcher-Dahifors, A., & Cicoira, F. (2013). Organic bioelectronics - novel applications in biomedicine. Biochimica et Biophysica Acta (BBA) -General Subjects, 1830(9), 4283-4285. Lien externe
Ohta, T., Cicoira, F., Doppelt, P., Beitone, L., & Hoffmann, P. (2001). Self-reducible CuII source reagents for the CVD of copper. Chemical Vapor Deposition, 7(1), 28-31. Lien externe
Ohta, T., Cicoira, F., Doppelt, P., Beitone, L., & Hoffmann, P. (2001). Static vapor pressure measurement of low volatility precursors for molecular vapor deposition below ambient temperature. Chemical Vapor Deposition, 7(1), 33-37. Lien externe
Petrossian, G., Kateb, P., Miquet-Westphal, F., & Cicoira, F. (2023). Advances in Electrode Materials for Scalp, Forehead, and Ear EEG: A Mini-Review. ACS Applied Bio Materials, 6(8), 3019-3032. 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
Rossetti, N., Hagler, J.E., Kateb, P., & Cicoira, F. (2021). Neural and electromyography PEDOT electrodes for invasive stimulation and recording. Journal of Materials Chemistry C, 9(23), 7243-7263. Lien externe
Rossetti, N., Luthra, P., Lee, A., Bodart Leguen, C., & Cicoira, F. (2019). Electrochemically Stable and Adherent PEDOT Coatings for High Quality EMG Recording. ECS Meeting Abstracts, MA2019-01(37), 1878-1878. 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
Rosei, F., & Cicoira, F. (2006). Playing Tetris at the nanoscale. Surface Science, 600(1), 1-5. Lien externe
Sarkar, B., Miquet-Westphal, F., Bobbara, S., George, B., Beltrame, G., Dousset, D., Wu, K., & Cicoira, F. (2023). Electromagnetic interference shielding in lightweight carbon xerogels. Materials Research Express, 10(4), 045601 (8 pages). Lien externe
Subramanian, A., Azimi, M., Leong, C. L., Lee, S. L., Santato, C., & Cicoira, F. (2022). Solution-Processed Titanium Dioxide Ion-Gated Transistors and Their Application for pH Sensing. Frontiers in Electronics, 3, 813535 (9 pages). Disponible
Subramanian, A., Azimi, M., Santato, C., & Cicoira, F. (2022). Combining Aqueous Solution Processing and Printing for Fabrication of Flexible and Sustainable Tin Dioxide Ion-Gated Transistors. Advanced Materials Technologies, 7(2), 2100843 (7 pages). Lien externe
Sarkar, B., Li, X., Quenneville, E., Carignan, L.-P., Wu, K., & Cicoira, F. (2021). Lightweight and flexible conducting polymer sponges and hydrogels for electromagnetic interference shielding. Journal of Materials Chemistry C, 9(46), 16558-16565. 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
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
Sayago, J., Soavi, F., Sivalingam, Y., Cicoira, F., & Santato, C. (2014). Low voltage electrolyte-gated organic transistors making use of high surface area activated carbon gate electrodes. Journal of Materials Chemistry C, 2(28), 5690-5694. 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
Sayago, J., Shafique, U., Soavi, F., Cicoira, F., & Santato, C. (2014). TransCap: A monolithically integrated supercapacitor and electrolyte-gated transistor. Journal of Materials Chemistry C, 2(48), 10273-10276. Lien externe
Sayago, J., Bayatpour, S., Cicoira, F., & Santato, C. (2013). Toward electrolyte-gated organic light-emitting transistors : advances and challenges. Dans Organic electronics : emerging concepts and technologies (215-232). Lien externe
Santato, C., Cicoira, F., & Martel, R. (2011). Organic photonics : Spotlight on organic transistors. Nature Photonics, 5(7), 392-393. Lien externe
Santato, C., Favaretto, L., Melucci, M., Zanelli, A., Gazzano, M., Monari, M., Isik, D., Banville, D., Bertolazzi, S., Loranger, S., & Cicoira, F. (2010). Influence of the oxidation level on the electronic, morphological and charge transport properties of novel dithienothiophene S-oxide and S,S-dioxide inner core oligomers. Journal of Materials Chemistry, 20(4), 669-676. Lien externe
Santato, C., Cicoira, F., & Rosei, F. (2009). Self‐assembly of thiophene‐based materials: A scanning tunneling microscopy perspective. Dans Handbook of Thiophene-Based Materials: Applications in Organic Electronics and Photonics (517-547). Lien externe
Santato, C., Cicoira, F., Cosseddu, P., Bonfiglio, A., Bellutti, P., Muccini, M., Zamboni, R., Rosei, F., Mantoux, A., & Doppelt, P. (2006). Organic light-emitting transistors using concentric source/drain electrodes on a molecular adhesion layer. Applied Physics Letters, 88(16). Lien externe
Santato, C., Manunza, I., Bonfiglio, A., Cicoira, F., Cosseddu, P., Zamboni, R., & Muccini, M. (2005). Tetracene light-emitting transistors on flexible plastic substrates. Applied Physics Letters, 86(14), 1-3. Lien externe
Santato, C., Capelli, R., Loi, M. A., Murgia, M., Cicoira, F., Roy, V. A. L., Stallinga, P., Zamboni, R., Rost, C., Karg, S. F., & Muccini, M. (2004). Tetracene-based organic light-emitting transistors: optoelectronic properties and electron injection mechanism. Synthetic Metals, 146(3), 329-334. Lien externe
Seuret, P., Cicoira, F., Ohta, T., Doppelt, P., Hoffmann, P., Weber, J., & Wesolowski, T. A. (2003). An experimental and theoretical study of [RhCl(PF3)2]2 fragmentation. Physical Chemistry Chemical Physics, 5(2), 268-274. 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
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