The role of graphene for electrochemical energy storage R Raccichini, A Varzi, S Passerini, B Scrosati Nature materials 14 (3), 271-279, 2015 | 2775 | 2015 |
A cost and resource analysis of sodium-ion batteries C Vaalma, D Buchholz, M Weil, S Passerini Nature reviews materials 3 (4), 1-11, 2018 | 1835 | 2018 |
Safer electrolytes for lithium‐ion batteries: state of the art and perspectives J Kalhoff, GG Eshetu, D Bresser, S Passerini ChemSusChem 8 (13), 2154-2175, 2015 | 875 | 2015 |
An overview and future perspectives of aluminum batteries GA Elia, K Marquardt, K Hoeppner, S Fantini, R Lin, E Knipping, W Peters, ... Advanced Materials 28 (35), 7564-7579, 2016 | 786 | 2016 |
Ionic‐liquid‐based polymer electrolytes for battery applications I Osada, H de Vries, B Scrosati, S Passerini Angewandte Chemie International Edition 55 (2), 500-513, 2016 | 767 | 2016 |
High temperature carbon–carbon supercapacitor using ionic liquid as electrolyte A Balducci, R Dugas, PL Taberna, P Simon, D Plee, M Mastragostino, ... Journal of power sources 165 (2), 922-927, 2007 | 736 | 2007 |
Transition metal oxide anodes for electrochemical energy storage in lithium‐and sodium‐ion batteries S Fang, D Bresser, S Passerini Transition Metal Oxides for Electrochemical Energy Storage, 55-99, 2022 | 717 | 2022 |
The lithium/air battery: still an emerging system or a practical reality? L Grande, E Paillard, J Hassoun, JB Park, YJ Lee, YK Sun, S Passerini, ... Advanced materials 27 (5), 784-800, 2015 | 686 | 2015 |
Hard carbons for sodium-ion batteries: Structure, analysis, sustainability, and electrochemistry X Dou, I Hasa, D Saurel, C Vaalma, L Wu, D Buchholz, D Bresser, ... Materials Today 23, 87-104, 2019 | 683 | 2019 |
Ionic liquids and their solid-state analogues as materials for energy generation and storage DR MacFarlane, M Forsyth, PC Howlett, M Kar, S Passerini, JM Pringle, ... Nature Reviews Materials 1 (2), 1-15, 2016 | 602 | 2016 |
Ionic liquids to the rescue? Overcoming the ionic conductivity limitations of polymer electrolytes JH Shin, WA Henderson, S Passerini Electrochemistry Communications 5 (12), 1016-1020, 2003 | 595 | 2003 |
Recent progress and remaining challenges in sulfur-based lithium secondary batteries–a review D Bresser, S Passerini, B Scrosati Chemical communications 49 (90), 10545-10562, 2013 | 575 | 2013 |
All-solid-state lithium-ion and lithium metal batteries–paving the way to large-scale production J Schnell, T Günther, T Knoche, C Vieider, L Köhler, A Just, M Keller, ... Journal of Power Sources 382, 160-175, 2018 | 549 | 2018 |
The mechanism of HF formation in LiPF6 based organic carbonate electrolytes SF Lux, IT Lucas, E Pollak, S Passerini, M Winter, R Kostecki Electrochemistry Communications 14 (1), 47-50, 2012 | 513 | 2012 |
Alternative binders for sustainable electrochemical energy storage–the transition to aqueous electrode processing and bio-derived polymers D Bresser, D Buchholz, A Moretti, A Varzi, S Passerini Energy & Environmental Science 11 (11), 3096-3127, 2018 | 501 | 2018 |
Current research trends and prospects among the various materials and designs used in lithium-based batteries R Wagner, N Preschitschek, S Passerini, J Leker, M Winter Journal of Applied Electrochemistry 43, 481-496, 2013 | 452 | 2013 |
PEO-based polymer electrolytes with ionic liquids and their use in lithium metal-polymer electrolyte batteries JH Shin, WA Henderson, S Passerini Journal of the Electrochemical Society 152 (5), A978, 2005 | 422 | 2005 |
Non-aqueous K-ion battery based on layered K0. 3MnO2 and hard carbon/carbon black C Vaalma, GA Giffin, D Buchholz, S Passerini Journal of The Electrochemical Society 163 (7), A1295, 2016 | 406 | 2016 |
Electrodeposited ZnO/Cu2O heterojunction solar cells SS Jeong, A Mittiga, E Salza, A Masci, S Passerini Electrochimica Acta 53 (5), 2226-2231, 2008 | 377 | 2008 |
Unfolding the Mechanism of Sodium Insertion in Anatase TiO2 Nanoparticles L Wu, D Bresser, D Buchholz, GA Giffin, CR Castro, A Ochel, S Passerini Advanced Energy Materials 5 (2), 1401142, 2015 | 376 | 2015 |