 | Monter d'un niveau |
Cicoira, F., Ebrahimi, S., Petrossian, G., Khoomortezaei, S., & Quenneville, É. (2026). EDOT-Acid enables stable PEDOT coatings on Ni-P electrodes through interfacial molecular interactions [Ensemble de données]. Lien externe
Ebrahimi, S., & Cicoira, F. (2026). Electrodeposition-Optimized PEDOT Interfaces on Printed Circuit Boards for Stable, Low-Impedance Organoid Electrophysiology [Ensemble de données]. Lien externe
Ebrahimi, S., Rostami, S., Petrossian, G., Quenneville, É., Dorval-Courchesne, N.-M., Moraes, C., & Cicoira, F. (2026). Electrodeposition-Optimized PEDOT Interfaces on Printed Circuit Boards for Stable, Low-Impedance Organoid Electrophysiology. ACS Applied Materials & Interfaces, 18(19), 27899-27911. Lien externe
Petrossian, G., Cicoira, F., Miquet-Westphal, F., & Ebrahimi, S. (2026). Double-Network PEDOT:PSS Xerogel Fibers with High Stretchability and Electrical Stability for Wearable Strain Sensing [Ensemble de données]. Lien externe
Petrossian, G., Ebrahimi, S., Cicoira, F., & Miquet-Westphal, F. (2026). Microsphere-templated conductive syntactic foams for recyclable and additively manufactured soft electronics [Ensemble de données]. Lien externe
Petrossian, G., Ebrahimi, S., Miquet-Westphal, F., Xu, H., & Cicoira, F. (2026). Double-network PEDOT:PSS xerogel fibers with high stretchability and electrical stability for wearable strain sensing. Materials Advances. Lien externe
