A single molecule made of carbon atoms, namely C100, has been rigorously simulated for application in quantum electronics and related devices. A self-consistent calculation, using density functional theory and a master-slave perturbation approach, has been done in order to characterize the curren-voltage curves of the above nano-scale component, that could be the building block for future device concepts based on quantum transport. Charging effects, quantum tunneling, ballistic transport, are shown to characterize the device under study, making it an important element of a potential scalable platform for unconventional electronics with extremely high charge sensitivity

Nano-scale electronics: Rigorous quantum study of a single molecule device / Mencarelli, D.; Pierantoni, L.. - ELETTRONICO. - 2019:(2019), pp. 937-939. (Intervento presentato al convegno 2019 IEEE MTT-S International Microwave Symposium, IMS 2019 tenutosi a USA nel 2019) [10.1109/MWSYM.2019.8700960].

Nano-scale electronics: Rigorous quantum study of a single molecule device

Mencarelli D.;Pierantoni L.
2019-01-01

Abstract

A single molecule made of carbon atoms, namely C100, has been rigorously simulated for application in quantum electronics and related devices. A self-consistent calculation, using density functional theory and a master-slave perturbation approach, has been done in order to characterize the curren-voltage curves of the above nano-scale component, that could be the building block for future device concepts based on quantum transport. Charging effects, quantum tunneling, ballistic transport, are shown to characterize the device under study, making it an important element of a potential scalable platform for unconventional electronics with extremely high charge sensitivity
2019
978-172811309-8
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11566/270637
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