Stable carbon monosulfide nanostructures: Chain arrays and monolayers
ORAL
Abstract
Herein we show using theoretical predictions that carbon monosulfide compounds exhibit a variety of layered nanostructures, such as chain arrays, monolayers, and thin films. We show that semiconductor chain arrays are the most stable because they are mainly dimensionality driven by sp2 hybridization of the carbon orbitals. In contrast to the thin films, the monolayers are stable at room temperature in a semiconductor phase, which is followed in energy by a metallic phase. Moreover, we study a semiconductor-to-metal phase transition in the carbon monosulfide monolayers by strain engineering to control the conductivity and carrier mobility.
See reference T. Alonso-Lanza, F. Aguilera-Granja, J. W. González, and A. Ayuela
Phys. Rev. Materials 1, 024001 (2017) and references therein.
See reference T. Alonso-Lanza, F. Aguilera-Granja, J. W. González, and A. Ayuela
Phys. Rev. Materials 1, 024001 (2017) and references therein.
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Presenters
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Andres Ayuela
Donostia Intl Phys Ctr
Authors
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Andres Ayuela
Donostia Intl Phys Ctr
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Tomás Alonso-Lanza
Centro de Fisica de Materiales MPC CSIC-UPV/EHU
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Jhon W. Gonzalez
Centro de Fisica de Materiales MPC CSIC-UPV/EHU
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Faustino Aguilera-Granja
Instituto de Física, Universidad Autónoma de San Luis de Potosí