Mechanical Isolation of Highly Stable Antimonene under Ambient Conditions
Entidad
UAM. Departamento de Física de la Materia Condensada; UAM. Departamento de Química; UAM. Departamento de Química InorgánicaEditor
Wiley-VCH VerlagFecha de edición
2016-08-10Cita
10.1002/adma.201602128
Advanced Materials 28.30 (2016): 6332-6336
ISSN
0935-9648 (print); 1521-4095 (online)DOI
10.1002/adma.201602128Financiado por
This work was supported by MINECO projects Consolider CSD2010-00024, MAT2013- 46753-C2-1 and 2, FIS2013-42002-R and CTQ2013-43698-P, CAM project NANOFRONTMAG-CM (ref. S2013/MIT-2850)Proyecto
Gobierno de España. CSD2010-00024; Gobierno de España. MAT2013- 46753-C2-2; Gobierno de España. FIS2013-42002-R; Gobierno de España. CTQ2013-43698-P; Gobierno de España. MAT2013- 46753-C2-1; Comunidad de Madrid. S2013/MIT-2850/NANOFRONTMAGVersión del editor
http://dx.doi.org/10.1002/adma.201602128Materias
2D materials; Antimonene; Black phosphorus; Environmental stability; Micromechanical exfoliation; Física; QuímicaNota
This is the peer reviewed version of the following article: Advanced Materials 28.30 (2016): 6332-6336, which has been published in final form at http://dx.doi.org/10.1002/adma.201602128. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-ArchivingDerechos
© 2016 Wiley VCH VerlagResumen
Antimonene fabricated by mechanical exfoliation is highly stable under atmospheric conditions over periods of months and even when immersed in water. Density functional theory confirms the experiments and predicts an electronic gap of ≈1 eV. These results highlight the use of antimonene for optoelectronics applications
Lista de ficheros
Google Scholar:Ares García, Pablo
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Aguilar-Galindo Rodríguez, Fernando
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Rodríguez-San-Miguel, David
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Aldave, Diego A.
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Díaz-Tendero Victoria, Sergio
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Alcamí Pertejo, Manuel
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Martín García, Fernando
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Gómez Herrero, Julio
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Zamora Abanades, Félix Juan
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