Electronic and transport properties of silicon nanowires

Sacconi, F.; Persson, M.P.; Povolotskyi, M.; Latessa, L.; Pecchia, A.; Gagliardi, A.; Balint, A.; Fraunheim, T.; Di Carlo, A.

doi:10.1007/s10825-006-0138-y

2007

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Titel:: Electronic and transport properties of silicon nanowires
Dokumenttyp:: Zeitschriftenaufsatz
Autor(en):: Sacconi, F.; Persson, M.P.; Povolotskyi, M.; Latessa, L.; Pecchia, A.; Gagliardi, A.; Balint, A.; Fraunheim, T.; Di Carlo, A.
Abstract:: The electronic, structural and transport properties of silicon nanowires have been investigated with different approaches. The Empirical Tight-Binding model (ETB) and Linear Combination of Bulk Bands (LCBB) method are used to calculate effect of quantum confinement on electronic energies, bandgap and effective masses in silicon nanowires in function of Si cell size. Both hydrogenated and SiO2 terminated silicon surfaces are studied. Transport properties of nanowires are obtained by applying the Non-Equilibrium Green Function (NEGF) method. NEGF approach has been used to describe nanoMOSFET devices based on Silicon nanowires. «
The electronic, structural and transport properties of silicon nanowires have been investigated with different approaches. The Empirical Tight-Binding model (ETB) and Linear Combination of Bulk Bands (LCBB) method are used to calculate effect of quantum confinement on electronic energies, bandgap and effective masses in silicon nanowires in function of Si cell size. Both hydrogenated and SiO2 terminated silicon surfaces are studied. Transport properties of nanowires are obtained by applying the... »
Zeitschriftentitel:: Journal of Computational Electronics September Volume 6, Issue 1-3, pp 329-333 2007-09
Jahr:: 2007
Jahr / Monat:: 2007-09
Quartal:: 3. Quartal
Monat:: Sep
Seitenangaben Beitrag:: 329 - 333
Volltext / DOI:: doi:10.1007/s10825-006-0138-y
WWW:: http://link.springer.com/article/10.1007%252Fs10825-006-0138-y
Verlag / Institution:: Springer Vieweg
BibTeX

Vorkommen:

mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Computation, Information and Technology Departments Electrical Engineering Simulation von Nanosystemen für Energiewandlungen (Prof. Gagliardi)2005

mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Computation, Information and Technology Departments Electrical Engineering Simulation von Nanosystemen für Energiewandlungen (Prof. Gagliardi)2006

mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Computation, Information and Technology Departments Electrical Engineering Simulation von Nanosystemen für Energiewandlungen (Prof. Gagliardi)2008

mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Computation, Information and Technology Departments Electrical Engineering Simulation von Nanosystemen für Energiewandlungen (Prof. Gagliardi)2009

mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Computation, Information and Technology Departments Electrical Engineering Simulation von Nanosystemen für Energiewandlungen (Prof. Gagliardi)2004

mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Computation, Information and Technology Departments Electrical Engineering Simulation von Nanosystemen für Energiewandlungen (Prof. Gagliardi)2007

mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Computation, Information and Technology Departments Electrical Engineering Simulation von Nanosystemen für Energiewandlungen (Prof. Gagliardi)2012

mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Computation, Information and Technology Departments Electrical Engineering Simulation von Nanosystemen für Energiewandlungen (Prof. Gagliardi)2010

mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Computation, Information and Technology Departments Electrical Engineering Simulation von Nanosystemen für Energiewandlungen (Prof. Gagliardi)2011