TiO {sub 2}-(B) nanotubes as anodes for lithium batteries: origin and mitigation of irreversible capacity S Brutti, B Scrosati, V Gentili, PG Bruce, H Menard Advanced Energy Materials 2, 2012 | 274 | 2012 |
Mixtures of ionic liquid–Alkylcarbonates as electrolytes for safe lithium-ion batteries L Lombardo, S Brutti, MA Navarra, S Panero, P Reale Journal of Power Sources 227, 8-14, 2013 | 207 | 2013 |
HYTHEC: an EC funded search for a long term massive hydrogen production route using solar and nuclear technologies A Le Duigou, JM Borgard, B Larousse, D Doizi, R Allen, BC Ewan, ... International journal of hydrogen energy 32 (10-11), 1516-1529, 2007 | 177 | 2007 |
A disordered carbon as a novel anode material in lithium-ion cells F Bonino, S Brutti, P Reale, B Scrosati, L Gherghel, J Wu, K Müllen Advanced Materials (Weinheim) 17, 2005 | 141 | 2005 |
Singlet oxygen from cation driven superoxide disproportionation and consequences for aprotic metal–O 2 batteries E Mourad, YK Petit, R Spezia, A Samojlov, FF Summa, C Prehal, ... Energy & environmental science 12 (8), 2559-2568, 2019 | 136 | 2019 |
Lithium insertion into anatase nanotubes V Gentili, S Brutti, LJ Hardwick, AR Armstrong, S Panero, PG Bruce Chemistry of Materials 24 (22), 4468-4476, 2012 | 136 | 2012 |
Catalytic thermal decomposition of sulphuric acid in sulphur–iodine cycle for hydrogen production V Barbarossa, S Brutti, M Diamanti, S Sau, G De Maria International journal of hydrogen energy 31 (7), 883-890, 2006 | 128 | 2006 |
Nanostructured TiO2 (B): the effect of size and shape on anode properties for Li-ion batteries Z Liu, YG Andreev, AR Armstrong, S Brutti, Y Ren, PG Bruce Progress in Natural Science: Materials International 23 (3), 235-244, 2013 | 118 | 2013 |
Sulfonated graphene oxide platelets in nafion nanocomposite membrane: Advantages for application in direct methanol fuel cells I Nicotera, C Simari, L Coppola, P Zygouri, D Gournis, S Brutti, FD Minuto, ... The Journal of Physical Chemistry C 118 (42), 24357-24368, 2014 | 98 | 2014 |
Nanoporous carbons from hydrothermally treated biomass as anode materials for lithium ion batteries E Unur, S Brutti, S Panero, B Scrosati Microporous and Mesoporous Materials 174, 25-33, 2013 | 98 | 2013 |
Preparation and Characterization of Nanocomposite Polymer Membranes Containing Functionalized SnO2 Additives R Scipioni, D Gazzoli, F Teocoli, O Palumbo, A Paolone, N Ibris, S Brutti, ... Membranes 4 (1), 123-142, 2014 | 91 | 2014 |
Magnesium hydride as a high capacity negative electrode for lithium ion batteries S Brutti, G Mulas, E Piciollo, S Panero, P Reale Journal of Materials Chemistry 22 (29), 14531-14537, 2012 | 82 | 2012 |
Ionic liquid electrolytes for high-voltage, lithium-ion batteries S Brutti, E Simonetti, M De Francesco, A Sarra, A Paolone, O Palumbo, ... Journal of Power Sources 479, 228791, 2020 | 81 | 2020 |
A high power Sn–C/C–LiFePO4 lithium ion battery S Brutti, J Hassoun, B Scrosati, CY Lin, H Wu, HW Hsieh Journal of Power Sources 217, 72-76, 2012 | 81 | 2012 |
Mitigation of the irreversible capacity and electrolyte decomposition in a LiNi0. 5Mn1. 5O4/nano-TiO2 Li-ion battery S Brutti, V Gentili, P Reale, L Carbone, S Panero Journal of Power Sources 196 (22), 9792-9799, 2011 | 79 | 2011 |
Minimizing the electrolyte volume in Li–S batteries: a step forward to high gravimetric energy density M Agostini, JY Hwang, HM Kim, P Bruni, S Brutti, F Croce, A Matic, ... Advanced Energy Materials 8 (26), 1801560, 2018 | 76 | 2018 |
High voltage Li-ion battery using exfoliated graphite/graphene nanosheets anode M Agostini, S Brutti, J Hassoun ACS applied materials & interfaces 8 (17), 10850-10857, 2016 | 74 | 2016 |
Vaporization thermodynamics of and S Brutti, A Ciccioli, G Balducci, G Gigli, P Manfrinetti, A Palenzona Applied physics letters 80 (16), 2892-2894, 2002 | 73 | 2002 |
Solid‐state post Li metal ion batteries: a sustainable forthcoming reality? S Ferrari, M Falco, AB Muñoz‐García, M Bonomo, S Brutti, M Pavone, ... Advanced Energy Materials 11 (43), 2100785, 2021 | 69 | 2021 |
Synthesis, characterization and electrochemical properties of 4.8 V LiNi0. 5Mn1. 5O4 cathode material in lithium-ion batteries NN Dinh, S Brutti, B Scrosati Electrochimica Acta 55 (18), 5110-5116, 2010 | 67 | 2010 |