VALLANA, NICHOLAS
VALLANA, NICHOLAS
DIPARTIMENTO DI SCIENZA DEI MATERIALI
Host–Guest Interactions and Transport Mechanism in Poly(vinylidene fluoride)-Based Quasi-Solid Electrolytes for Lithium Metal Batteries
2024 Vallana, N; Carena, E; Ceribelli, N; Mezzomo, L; Di Liberto, G; Mauri, M; Ferrara, C; Lorenzi, R; Giordano, L; Ruffo, R; Mustarelli, P
PVDF-HFP Based, Quasi-Solid Nanocomposite Electrolytes for Lithium Metal Batteries
2024 Carena, E; Mezzomo, L; Vallana, N; Ceribelli, N; Di Liberto, G; Mostoni, S; Ferrara, C; Mauri, M; Lorenzi, R; Giordano, L; Ruffo, R; Mustarelli, P
Sn/Ti composite oxides as negative electrode for lithium-ion batteries from Ti3Al(1-x)SnxC2 MAX phases (x=0.4, 0.7, 1): the golden mean of a coin
2024 Vallana, N; Gentile, A; Ostroman, I; Ferrara, C; Marchionna, S; Ruffo, R
Highly Reversible Ti/Sn Oxide Nanocomposite Electrodes for Lithium Ion Batteries Obtained by Oxidation of Ti3 Al(1-x) Snx C2 Phases
2023 Ostroman, I; Ferrara, C; Marchionna, S; Gentile, A; Vallana, N; Sheptyakov, D; Lorenzi, R; Ruffo, R
Nanocomposite Negative Electrode based on Sn/Ti oxide from Ti3Al(1-x)SnxC2 MAX Phase systems for Lithium Ion Batteries
2023 Vallana, N; Gentile, A; Ferrara, C; Ostroman, I; Marchionna, S; Ruffo, R
Performances’ enhancement ensured by the addition of filler in PVDF-HFP-based electrolytes for lithium metal batteries
2023 Carena, E; Mezzomo, L; Mostoni, S; Vallana, N; Ferrara, C; Ruffo, R; Mustarelli, P
Sn/Ti oxide from Ti3Al(1-x)SnxC2 MAX Phases (x=0.4, 0.7, 1) as Negative Electrode for Lithium Ion Batteries: three Sides of a Coin
2023 Vallana, N; Gentile, A; Ferrara, C; Cerrone, D; Ostroman, I; Marchionna, S; Ruffo, R