Tunable gap in stable arsenene nanoribbons opens the door to electronic applications
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Royal Society of Chemistry
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Abstract
Arsenic has been predicted to present significantly more diverse 2D phases than other elementalcompounds like graphene. While practical applications must be based onfinite arsenene samples, likenanoribbons, theory has so far focused on the infinite sheet. Ourab initiosimulations show the clearcontrast between the properties of arsenene nanoribbons and those of the monolayer, ranging fromphase stability to electronic structure. We include nanoribbons derived from the buckled, puckered andsquare/octagon structures of bulk arsenene. Theflexibility afforded by different parent structures, widthsand edge passivations leads to a rich variety of semiconducting structures with tunable gaps
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García Fuente, A., Carrete Montaña, J., Vega Hierro, A., y Gallego del Hoyo, L.J. (2019). Tunable gap in stable arsenene nanoribbons opens the door to electronic applications. RSC Advances, vol. 9, 11818-11823
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https://doi.org/10.1039/c9ra00975bSponsors
This work was supported by the Xunta de Galicia (AGRUP2015/11, ED431E 2018/8 and GRC ED431C 2016/001) and by the Junta de Castilla y León (Project No. VA124G18). The first two of these research projects were partially supported by FEDER
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© The Royal Society of Chemistry 2019. Open Access Article. This article is licensed under a Creative Commons Attribution-NonCommercial 3.0 Unported (CC BY-NC 3.0)