Computational modelling of the Li effects on the electronic structure of porous silicon

Mar\'Ia Lucero Gomez-Herrera; \'Alvaro Miranda Dur\'an; Alejandro Trejo Ba\~nos; Miguel Cruz Irisson

Computational modelling of the Li effects on the electronic structure of porous silicon

POSTER

Abstract

This work analyses the effects of Li impurities on the electronic structure of pSi by means of the density functional theory with the generalized gradient approximation and the supercell scheme. The porous structures were modeled by removing atoms in the [001] direction of an otherwise perfect Si crystal. All surface dangling bonds were saturated with H atoms. To model the Li impurities some H atoms are replaced with Li atoms at the surface. Results show additional bands around the Fermi level with the insertion of a single Li atom on the pore surface, which suggests a trap-like state of localized charge. With increasing concentration of surface Li the band gap gradually decreases approaching to a metallic behavior. This results could be important to the application of pSi in Li-ion batteries

^*This work was partially supported by CONACYT infrastructure project 252749

Authors

Mar\'Ia Lucero Gomez-Herrera
- Facultad de Ingenier\'ia Universidad Aut\'onoma de Quer\'etaro C. P. 76000, M\'exico Quer\'etaro
\'Alvaro Miranda Dur\'an
- Instituto Polit\'ecnico Nacional, ESIME Culhuacan, Av. Santa Ana 1000 C, P. 04918 M\'exico D. F.
Alejandro Trejo Ba\~nos
- ESIME-Culhuac\'an, Instituto Polit\'ecnico Nacional, Av. Santa Ana 1000, 04430 M\'exico D.F., M\'exico
- Instituto Polit\'ecnico Nacional, ESIME Culhuacan, Av. Santa Ana 1000 C, P. 04918 M\'exico D. F.
Miguel Cruz Irisson
- ESIME-Culhuac\'an, Instituto Polit\'ecnico Nacional, Av. Santa Ana 1000, 04430 M\'exico D.F., M\'exico
- Instituto Polit\'ecnico Nacional, ESIME Culhuacan, Av. Santa Ana 1000 C, P. 04918 M\'exico D. F.