| Materials for electrochemical capacitors P Simon, Y Gogotsi Nature materials 7 (11), 845-854, 2008 | 18001 | 2008 |
| Where do batteries end and supercapacitors begin? P Simon, Y Gogotsi, B Dunn Science 343 (6176), 1210-1211, 2014 | 5541 | 2014 |
| Electrochemical capacitors for energy management JR Miller, P Simon science 321 (5889), 651-652, 2008 | 5224 | 2008 |
| Pseudocapacitive oxide materials for high-rate electrochemical energy storage V Augustyn, P Simon, B Dunn Energy & Environmental Science 7 (5), 1597-1614, 2014 | 5209 | 2014 |
| High-rate electrochemical energy storage through Li+ intercalation pseudocapacitance V Augustyn, J Come, MA Lowe, JW Kim, PL Taberna, SH Tolbert, ... Nature materials 12 (6), 518-522, 2013 | 4656 | 2013 |
| Anomalous increase in carbon capacitance at pore sizes less than 1 nanometer J Chmiola, G Yushin, Y Gogotsi, C Portet, P Simon, PL Taberna science 313 (5794), 1760-1763, 2006 | 4385 | 2006 |
| Cation intercalation and high volumetric capacitance of two-dimensional titanium carbide MR Lukatskaya, O Mashtalir, CE Ren, Y Dall’Agnese, P Rozier, ... Science 341 (6153), 1502-1505, 2013 | 4040 | 2013 |
| Ultrahigh-power micrometre-sized supercapacitors based on onion-like carbon D Pech, M Brunet, H Durou, P Huang, V Mochalin, Y Gogotsi, PL Taberna, ... Nature nanotechnology 5 (9), 651-654, 2010 | 2972 | 2010 |
| Relation between the ion size and pore size for an electric double-layer capacitor C Largeot, C Portet, J Chmiola, PL Taberna, Y Gogotsi, P Simon Journal of the American Chemical Society 130 (9), 2730-2731, 2008 | 2602 | 2008 |
| True performance metrics in electrochemical energy storage Y Gogotsi, P Simon science 334 (6058), 917-918, 2011 | 2538 | 2011 |
| High rate capabilities Fe3O4-based Cu nano-architectured electrodes for lithium-ion battery applications PL Taberna, S Mitra, P Poizot, P Simon, JM Tarascon Nature materials 5 (7), 567-573, 2006 | 2357 | 2006 |
| Electrochemical characteristics and impedance spectroscopy studies of carbon-carbon supercapacitors PL Taberna, P Simon, JF Fauvarque Journal of the Electrochemical Society 150 (3), A292, 2003 | 2156 | 2003 |
| Ultra-high-rate pseudocapacitive energy storage in two-dimensional transition metal carbides MR Lukatskaya, S Kota, Z Lin, MQ Zhao, N Shpigel, MD Levi, J Halim, ... MXenes, 723-743, 2023 | 2041 | 2023 |
| Efficient storage mechanisms for building better supercapacitors M Salanne, B Rotenberg, K Naoi, K Kaneko, PL Taberna, CP Grey, ... Nature Energy 1 (6), 1-10, 2016 | 1981 | 2016 |
| Energy applications of ionic liquids DR MacFarlane, N Tachikawa, M Forsyth, JM Pringle, PC Howlett, ... Energy & Environmental Science 7 (1), 232-250, 2014 | 1831 | 2014 |
| Capacitive energy storage in nanostructured carbon–electrolyte systems P Simon, Y Gogotsi Accounts of chemical research 46 (5), 1094-1103, 2013 | 1652 | 2013 |
| Carbon nanomaterials in biosensors: should you use nanotubes or graphene? W Yang, KR Ratinac, SP Ringer, P Thordarson, JJ Gooding, F Braet Angewandte Chemie International Edition 49 (12), 2114-2138, 2010 | 1629 | 2010 |
| Studies and characterisations of various activated carbons used for carbon/carbon supercapacitors J Gamby, PL Taberna, P Simon, JF Fauvarque, M Chesneau Journal of power sources 101 (1), 109-116, 2001 | 1569 | 2001 |
| Perspectives for electrochemical capacitors and related devices P Simon, Y Gogotsi Nature materials 19 (11), 1151-1163, 2020 | 1552 | 2020 |
| MXene: a promising transition metal carbide anode for lithium-ion batteries M Naguib, J Come, B Dyatkin, V Presser, PL Taberna, P Simon, ... Electrochemistry Communications 16 (1), 61-64, 2012 | 1551 | 2012 |
