Prete, Domenic
Prete, Domenic
Electrostatic Control of the Thermoelectric Figure of Merit in Ion-Gated Nanotransistors
2021 Prete, D.; Dimaggio, E.; Demontis, V.; Zannier, V.; Rodriguez Douton, M. J.; Guazzelli, L.; Beltram, F.; Sorba, L.; Pennelli, G.; Rossella, F.
Fe-functionalized paramagnetic sporopollenin from pollen grains: one-pot synthesis using ionic liquids
2020 Chiappe, C; Rodriguezdouton, Mj; Mozzati, Mc; Prete, D; Griesi, A; Guazzelli, L; Gemmi, M; Caporali, S; Calisi, N; Pomelli, Cs; Rossella, F
Giant reduction of thermal conductivity and enhancement of thermoelectric performance in twinning superlattice InAsSb nanowires
2022 Peri, Lorenzo; Prete, Domenic; Demontis, Valeria; Zannier, Valentina; Rossi, Francesca; Sorba, Lucia; Beltram, Fabio; Rossella, Francesco
Heat-Driven Iontronic Nanotransistors
2023 Prete, D.; Colosimo, A.; Demontis, V.; Medda, L.; Zannier, V.; Bellucci, L.; Tozzini, V.; Sorba, L.; Beltram, F.; Pisignano, D.; Rossella, F.
Impact of electrostatic doping on carrier concentration and mobility in InAs nanowires
2021 Prete, D; Demontis, V; Zannier, V; Rodriguezdouton, Mj; Guazzelli, L; Beltram, F; Sorba, L; Rossella, F
InAs nanowire field-effect transistors: temperature dependence of electrical properties and digital electronic applications
2023 Viscardi, L.; Faella, E.; Intonti, K.; Giubileo, F.; Demontis, V.; Prete, D.; Zannier, V.; Sorba, L.; Rossella, F.; Romano, P.; Bartolomeo, A. Di
Publisher Correction: Fe-functionalized paramagnetic sporopollenin from pollen grains: one-pot synthesis using ionic liquids (Scientific Reports, (2020), 10, 1, (12005), 10.1038/s41598-020-68875-6)
2020 Chiappe C.; RodriguezDouton M.J.; Mozzati M.C.; Prete D.; Griesi A.; Guazzelli L.; Gemmi M.; Caporali S.; Calisi N.; Pomelli C.S.; Rossella F.
Suspended InAs Nanowire-Based Devices for Thermal Conductivity Measurement Using the 3? Method
2018 Rocci, M; Demontis, V; Prete, D; Ercolani, D; Sorba, L; Beltram, F; Pennelli, G; Roddaro, S; Rossella, F
Temperature behavior and logic circuit applications of InAs nanowire-based field-effect transistors
2024 Viscardi, L.; Faella, E.; Intonti, K.; Giubileo, F.; Demontis, V.; Prete, D.; Zannier, V.; Sorba, L.; Rossella, F.; Di Bartolomeo, A.
Thermoelectric Conversion at 30 K in InAs/InP Nanowire Quantum Dots
2019 Prete D.; Erdman P.A.; Demontis V.; Zannier V.; Ercolani D.; Sorba L.; Beltram F.; Rossella F.; Taddei F.; Roddaro S.
| Titolo | Data di pubblicazione | Autore(i) | File |
|---|---|---|---|
| Electrostatic Control of the Thermoelectric Figure of Merit in Ion-Gated Nanotransistors | 1-gen-2021 | Prete, D.; Dimaggio, E.; Demontis, V.; Zannier, V.; Rodriguez Douton, M. J.; Guazzelli, L.; Beltram, F.; Sorba, L.; Pennelli, G.; Rossella, F. | |
| Fe-functionalized paramagnetic sporopollenin from pollen grains: one-pot synthesis using ionic liquids | 1-gen-2020 | Chiappe, C; Rodriguezdouton, Mj; Mozzati, Mc; Prete, D; Griesi, A; Guazzelli, L; Gemmi, M; Caporali, S; Calisi, N; Pomelli, Cs; Rossella, F | |
| Giant reduction of thermal conductivity and enhancement of thermoelectric performance in twinning superlattice InAsSb nanowires | 1-gen-2022 | Peri, Lorenzo; Prete, Domenic; Demontis, Valeria; Zannier, Valentina; Rossi, Francesca; Sorba, Lucia; Beltram, Fabio; Rossella, Francesco | |
| Heat-Driven Iontronic Nanotransistors | 1-gen-2023 | Prete, D.; Colosimo, A.; Demontis, V.; Medda, L.; Zannier, V.; Bellucci, L.; Tozzini, V.; Sorba, L.; Beltram, F.; Pisignano, D.; Rossella, F. | |
| Impact of electrostatic doping on carrier concentration and mobility in InAs nanowires | 1-gen-2021 | Prete, D; Demontis, V; Zannier, V; Rodriguezdouton, Mj; Guazzelli, L; Beltram, F; Sorba, L; Rossella, F | |
| InAs nanowire field-effect transistors: temperature dependence of electrical properties and digital electronic applications | 1-gen-2023 | Viscardi, L.; Faella, E.; Intonti, K.; Giubileo, F.; Demontis, V.; Prete, D.; Zannier, V.; Sorba, L.; Rossella, F.; Romano, P.; Bartolomeo, A. Di | |
| Publisher Correction: Fe-functionalized paramagnetic sporopollenin from pollen grains: one-pot synthesis using ionic liquids (Scientific Reports, (2020), 10, 1, (12005), 10.1038/s41598-020-68875-6) | 1-gen-2020 | Chiappe C.; RodriguezDouton M.J.; Mozzati M.C.; Prete D.; Griesi A.; Guazzelli L.; Gemmi M.; Caporali S.; Calisi N.; Pomelli C.S.; Rossella F. | |
| Suspended InAs Nanowire-Based Devices for Thermal Conductivity Measurement Using the 3? Method | 1-gen-2018 | Rocci, M; Demontis, V; Prete, D; Ercolani, D; Sorba, L; Beltram, F; Pennelli, G; Roddaro, S; Rossella, F | |
| Temperature behavior and logic circuit applications of InAs nanowire-based field-effect transistors | 1-gen-2024 | Viscardi, L.; Faella, E.; Intonti, K.; Giubileo, F.; Demontis, V.; Prete, D.; Zannier, V.; Sorba, L.; Rossella, F.; Di Bartolomeo, A. | |
| Thermoelectric Conversion at 30 K in InAs/InP Nanowire Quantum Dots | 1-gen-2019 | Prete D.; Erdman P.A.; Demontis V.; Zannier V.; Ercolani D.; Sorba L.; Beltram F.; Rossella F.; Taddei F.; Roddaro S. |