electronic supplementary information arsenene nanotubes ... · s1 electronic supplementary...
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Electronic Supplementary Information
Structural Transition Induced by Compression and Stretching of Puckered Arsenene Nanotubes
J. J. Quijano-Briones,a H. N. Fernández-Escamilla,*b J. Guerrero-Sánchez,b E. Martínez-Guerra,a and Noboru Takeuchi.b
aCICFIM Facultad de Ciencias Físico Matemáticas, Universidad Autónoma de Nuevo León, San Nicolás de los Garza, N.L. 66450, México.
bCentro de Nanociencias y Nanotecnología, Universidad Nacional Autónoma de México, Apartado Postal 14, Ensenada Baja California, Código Postal 22800, México.
Table of contents
Fig. S1 Charge density isosurfaces for the (19, 0) zigzag nanotube with different lattice vector ……..S2
Fig. S2 Charge density isosurfaces for the (0, 19) armchair nanotube with different lattice vector …..S3
Fig. S3 Electronic band structure for the compressed (9, 0) nanotube…………………………………….......S4
Fig. S4 Electronic band structure for the stretched (0, 9) nanotube .…………..……………………..S5
Fig. S5 Electronic band structure for the compressed (14, 0) nanotube …….…………...…………..S6
Fig. S6 Electronic band structure for the stretched (0, 14) nanotube ………………………………...S7
Electronic Supplementary Material (ESI) for Physical Chemistry Chemical Physics.This journal is © the Owner Societies 2019
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Fig. S1 Charge density isosurfaces for the (19, 0) zigzag nanotube with different lattice vector.
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Fig. S2 Charge density isosurfaces for the (0, 19) armchair nanotube with different lattice vector.
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Fig. S3 Electronic band structure for the compressed (9, 0) nanotube.
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Fig. S4 Electronic band structure for the stretched (0, 9) nanotube.
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Fig. S5 Electronic band structure for the compressed (14, 0) nanotube.
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Fig. S6 Electronic band structure for the stretched (0, 14) nanotube.