Tight-binding description of disordered nanostructures: an application to porous silicon

J. Tagüeña-Martínez; Yuri G. Rubo; M. Cruz; M. R. Beltrán; C. Wang

doi:10.1016/S0169-4332(98)00699-0

Tight-binding description of disordered nanostructures: an application to porous silicon

J. Tagüeña-Martínez, Yuri G. Rubo, M. Cruz, M. R. Beltrán, C. Wang

Escuela Superior de Ingeniería Mecánica y Eléctrica (ESIME), Unidad Culhuacán

Producción científica: Contribución a una revista › Artículo de la conferencia › revisión exhaustiva

7 Citas (Scopus)

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We present the calculations of the coefficient of light (photo) absorption in porous silicon (por-Si) using the supercell tight-binding sp³s^* model, in which the pores are columns digged in crystalline silicon. The disorder in the pore sizes and the undulation of the silicon wires are taken into account by considering nonvertical interband transitions. The results obtained for 8- and 32-atom supercells show a strong dependence on the pore morphology, i.e., the absorption coefficient changes with the shape and size of the silicon wires even at constant porosity. The absorption spectrum of this model for por-Si is defined by the interplay between the decrease in the indirectness of the material (connected to the absorption processes assisted by the scattering on the pores), which effectively reduces the direct gap, and the increase of the gap due to the quantum confinement.

Idioma original	Inglés
Páginas (desde-hasta)	564-568
Número de páginas	5
Publicación	Applied Surface Science
Volumen	142
N.º	1
DOI	https://doi.org/10.1016/S0169-4332(98)00699-0
Estado	Publicada - abr. 1999
Evento	Proceedings of the 1998 9th International Conference on Solid Films and Surfaces, ICSFS-9 - Copenhagen, Denmark Duración: 6 jul. 1998 → 10 jul. 1998

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title = "Tight-binding description of disordered nanostructures: an application to porous silicon",

abstract = "We present the calculations of the coefficient of light (photo) absorption in porous silicon (por-Si) using the supercell tight-binding sp3s* model, in which the pores are columns digged in crystalline silicon. The disorder in the pore sizes and the undulation of the silicon wires are taken into account by considering nonvertical interband transitions. The results obtained for 8- and 32-atom supercells show a strong dependence on the pore morphology, i.e., the absorption coefficient changes with the shape and size of the silicon wires even at constant porosity. The absorption spectrum of this model for por-Si is defined by the interplay between the decrease in the indirectness of the material (connected to the absorption processes assisted by the scattering on the pores), which effectively reduces the direct gap, and the increase of the gap due to the quantum confinement.",

author = "J. Tag{\"u}e{\~n}a-Mart{\'i}nez and Rubo, {Yuri G.} and M. Cruz and Beltr{\'a}n, {M. R.} and C. Wang",

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T1 - Tight-binding description of disordered nanostructures

T2 - Proceedings of the 1998 9th International Conference on Solid Films and Surfaces, ICSFS-9

AU - Tagüeña-Martínez, J.

AU - Rubo, Yuri G.

AU - Cruz, M.

AU - Beltrán, M. R.

AU - Wang, C.

PY - 1999/4

Y1 - 1999/4

N2 - We present the calculations of the coefficient of light (photo) absorption in porous silicon (por-Si) using the supercell tight-binding sp3s* model, in which the pores are columns digged in crystalline silicon. The disorder in the pore sizes and the undulation of the silicon wires are taken into account by considering nonvertical interband transitions. The results obtained for 8- and 32-atom supercells show a strong dependence on the pore morphology, i.e., the absorption coefficient changes with the shape and size of the silicon wires even at constant porosity. The absorption spectrum of this model for por-Si is defined by the interplay between the decrease in the indirectness of the material (connected to the absorption processes assisted by the scattering on the pores), which effectively reduces the direct gap, and the increase of the gap due to the quantum confinement.

AB - We present the calculations of the coefficient of light (photo) absorption in porous silicon (por-Si) using the supercell tight-binding sp3s* model, in which the pores are columns digged in crystalline silicon. The disorder in the pore sizes and the undulation of the silicon wires are taken into account by considering nonvertical interband transitions. The results obtained for 8- and 32-atom supercells show a strong dependence on the pore morphology, i.e., the absorption coefficient changes with the shape and size of the silicon wires even at constant porosity. The absorption spectrum of this model for por-Si is defined by the interplay between the decrease in the indirectness of the material (connected to the absorption processes assisted by the scattering on the pores), which effectively reduces the direct gap, and the increase of the gap due to the quantum confinement.

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EP - 568

JO - Applied Surface Science

JF - Applied Surface Science

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Y2 - 6 July 1998 through 10 July 1998

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Tight-binding description of disordered nanostructures: an application to porous silicon

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