Graphitic carbon nitride nanosheet electrode-based high-performance ionic actuator G Wu, Y Hu, Y Liu, J Zhao, X Chen, V Whoehling, C Plesse, GTM Nguyen, ... Nature Communications 6 (1), 7258, 2015 | 248 | 2015 |
Piezoionic mechanoreceptors: Force-induced current generation in hydrogels Y Dobashi, D Yao, Y Petel, TN Nguyen, MS Sarwar, Y Thabet, CLW Ng, ... Science 376 (6592), 502-507, 2022 | 209 | 2022 |
Long-life air working conducting semi-IPN/ionic liquid based actuator F Vidal, C Plesse, D Teyssié, C Chevrot Synthetic metals 142 (1-3), 287-291, 2004 | 204 | 2004 |
Design and synthesis of new anionic “polymeric ionic liquids” with high charge delocalization AS Shaplov, PS Vlasov, M Armand, EI Lozinskaya, DO Ponkratov, ... Polymer Chemistry 2 (11), 2609-2618, 2011 | 133 | 2011 |
Demonstrating kHz frequency actuation for conducting polymer microactuators A Maziz, C Plesse, C Soyer, C Chevrot, D Teyssié, E Cattan, F Vidal Advanced Functional Materials 24 (30), 4851-4859, 2014 | 128 | 2014 |
Polymeric ionic liquids: comparison of polycations and polyanions AS Shaplov, PS Vlasov, EI Lozinskaya, DO Ponkratov, IA Malyshkina, ... Macromolecules 44 (24), 9792-9803, 2011 | 119 | 2011 |
Bis (trifluoromethylsulfonyl) amide based “polymeric ionic liquids”: Synthesis, purification and peculiarities of structure–properties relationships AS Shaplov, EI Lozinskaya, DO Ponkratov, IA Malyshkina, F Vidal, ... Electrochimica acta 57, 74-90, 2011 | 118 | 2011 |
Dynamic crosslinked rubbers for a green future: A material perspective AM Wemyss, C Bowen, C Plesse, C Vancaeyzeele, GTM Nguyen, F Vidal, ... Materials Science and Engineering: R: Reports 141, 100561, 2020 | 114 | 2020 |
Flexible solid polymer electrolytes based on nitrile butadiene rubber/poly (ethylene oxide) interpenetrating polymer networks containing either LiTFSI or EMITFSI LJ Goujon, A Khaldi, A Maziz, C Plesse, GTM Nguyen, PH Aubert, F Vidal, ... Macromolecules 44 (24), 9683-9691, 2011 | 110 | 2011 |
In search of better electroactive polymer actuator materials: PPy versus PEDOT versus PEDOT–PPy composites R Temmer, A Maziz, C Plesse, A Aabloo, F Vidal, T Tamm Smart Materials and Structures 22 (10), 104006, 2013 | 106 | 2013 |
Breaking the symmetry of dibenzoxazines: a paradigm to tailor the design of bio-based thermosets L Puchot, P Verge, T Fouquet, C Vancaeyzeele, F Vidal, Y Habibi Green Chemistry 18 (11), 3346-3353, 2016 | 105 | 2016 |
Synthesis and characterization of conducting interpenetrating polymer networks for new actuators C Plesse, F Vidal, H Randriamahazaka, D Teyssié, C Chevrot Polymer 46 (18), 7771-7778, 2005 | 104 | 2005 |
Robust solid polymer electrolyte for conducting IPN actuators N Festin, A Maziz, C Plesse, D Teyssié, C Chevrot, F Vidal Smart Materials and Structures 22 (10), 104005, 2013 | 101 | 2013 |
Reactive surfactants in heterophase polymerization A Guyot, K Tauer, JM Asua, S Van Es, C Gauthier, AC Hellgren, ... Acta Polymerica 50 (2‐3), 57-66, 1999 | 96 | 1999 |
Ionic electroactive polymer artificial muscles in space applications A Punning, KJ Kim, V Palmre, F Vidal, C Plesse, N Festin, A Maziz, ... Scientific reports 4 (1), 6913, 2014 | 95 | 2014 |
Stretchable composite monolayer electrodes for low voltage dielectric elastomer actuators X Ji, A El Haitami, F Sorba, S Rosset, GTM Nguyen, C Plesse, F Vidal, ... Sensors and Actuators B: Chemical 261, 135-143, 2018 | 90 | 2018 |
A first truly all-solid state organic electrochromic device based on polymeric ionic liquids AS Shaplov, DO Ponkratov, PH Aubert, EI Lozinskaya, C Plesse, F Vidal, ... Chemical Communications 50 (24), 3191-3193, 2014 | 80 | 2014 |
Conducting IPN actuators: From polymer chemistry to actuator with linear actuation F Vidal, C Plesse, G Palaprat, A Kheddar, J Citerin, D Teyssié, C Chevrot Synthetic Metals 156 (21-24), 1299-1304, 2006 | 80 | 2006 |
Ionic IPNs as novel candidates for highly conductive solid polymer electrolytes AS Shaplov, L Goujon, F Vidal, EI Lozinskaya, F Meyer, IA Malyshkina, ... Journal of Polymer Science Part A: Polymer Chemistry 47 (17), 4245-4266, 2009 | 77 | 2009 |
Feasibility of conducting semi‐interpenetrating networks based on a poly (ethylene oxide) network and poly (3, 4‐ethylenedioxythiophene) in actuator design F Vidal, JF Popp, C Plesse, C Chevrot, D Teyssié Journal of Applied Polymer Science 90 (13), 3569-3577, 2003 | 76 | 2003 |