In this paper we compare experimental data and simulations based on a semiclassical model in order to investigate the relative importance of a several scattering mechanisms on the mobility of graphene nano-ribbons. Furthermore, some new experimental results complementing the range of ribbon widths available in the literature are also reported. We show that scattering with remote phonons originating in the substrate insulator can appreciably reduce the mobility of graphene and it should not be neglected in the interpretation of graphene mobility data. In fact by accounting for remote phonon scattering we could reproduce fairly well the experimentally observed dependence of the mobility on the ribbon width, the temperature and the inversion density, whereas the agreement with experiments is much worse when remote phonons are not included in the calculations.
Interpretation of graphene mobility data by means of a semiclassical Monte Carlo transport model / Bresciani, Marco; Palestri, Pierpaolo; Esseni, David; Selmi, Luca; B., Szafranek; D., Neumaier. - In: SOLID-STATE ELECTRONICS. - ISSN 0038-1101. - STAMPA. - 89:(2013), pp. 161-166. [10.1016/j.sse.2013.08.004]
Interpretation of graphene mobility data by means of a semiclassical Monte Carlo transport model
SELMI, Luca;
2013-01-01
Abstract
In this paper we compare experimental data and simulations based on a semiclassical model in order to investigate the relative importance of a several scattering mechanisms on the mobility of graphene nano-ribbons. Furthermore, some new experimental results complementing the range of ribbon widths available in the literature are also reported. We show that scattering with remote phonons originating in the substrate insulator can appreciably reduce the mobility of graphene and it should not be neglected in the interpretation of graphene mobility data. In fact by accounting for remote phonon scattering we could reproduce fairly well the experimentally observed dependence of the mobility on the ribbon width, the temperature and the inversion density, whereas the agreement with experiments is much worse when remote phonons are not included in the calculations.
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