Enhancement of thermoelectric efficiency by quantum interference effects in trilayer silicene flakes

Luis Rosales; Natalia Cort\&#039;es; Leonor Chico; M. Pacheco; Pedro Orellana

Enhancement of thermoelectric efficiency by quantum interference effects in trilayer silicene flakes

ORAL

Abstract

In recent years, the enhancement of thermoelectric efficiencies has been accomplished in nanoscale systems by making use of quantum effects. We exploit the presence of quantum interference phenomena such as bound states in the continuum and Fano antiresonances in trilayer silicene flakes to produce sharp changes in the electronic transmission of the system. By applying symmetric gate voltages the thermoelectric properties can be tuned and, for particular flake lengths, a great enhancement of the figure of merit can be achieved. We show that the most favorable configurations are those in which the electronic transmission is dominated by the coupling of bound states to the continuum, tuned by an external gate.\\ References: [1] N. Cort\'es et al., J. Phys.: Condens. Matter \textbf{29}, 015004 (2017).

March 14, 2017, 5:42 PM – March 14, 2017, 5:54 PM

Authors

Luis Rosales

Universidad T\'ecnica Federico Santa Mar\'ia, Valpara\'iso, Chile, Universidad T\'ecnica Federico Santa Mar\'\i{}a
Natalia Cort\'es

Universidad T\'ecnica Federico Santa Mar\'ia, Valpara\'iso, Chile, Universidad T\'ecnica Federico Santa Mar\'\i{}a
Leonor Chico

Instituto de Ciencia de Materiales de Madrid, Cantoblanco, Spain, Instituto de Ciencia de Materiales de Madrid (ICMM), Consejo Superior de Investigaciones Cient\'ificas (CSIC), Madrid, Spain
M. Pacheco

Universidad T\'ecnica Federico Santa Mar\'ia, Valpara\'iso, Chile, Universidad Federico Santa Maria
Pedro Orellana

Universidad T\'ecnica Federico Santa Mar\'ia, Valpara\'iso, Chile, Universidad T\'ecnica Federico Santa Mar\'\i{}a, Universidad Tecnica Federico Santa Maria