Title :
InAs/GaAs and InAlGaAs/AlGaAs quantum dot based solar cells for intermediate band operation
Author :
Tasco, V. ; Passaseo, A. ; Creti, A. ; Montagna, Giovanni ; Lomascolo, M. ; Tarantini, I. ; Salhi, Ali ; Al-Muhanna, A.
Author_Institution :
Nat. Nanotechnol. Lab., Nanosci. Inst., Lecce, Italy
Abstract :
In this work two quantum dot (QD) solar cell structures have been proposed and compared as potential solutions for the realization of the Intermediate Band Solar Cell concept: the well known dot/barrier material system InAs / GaAs and an engineered InAlGaAs/AlGaAs combination. The Al-based structures have been obtained by a suitably developed growth procedure with the aim of increasing island density and engineering the absorption spectrum and the energy band profile in the near infrared region. Along with tunability of the confined electron energy levels, the proposed Al-based structures exhibit transport features, such as reduced edge recombination losses and lower reverse saturation current density with respect to the InAs/GaAs QD system, which can be useful for enhancing device performances.
Keywords :
III-V semiconductors; aluminium compounds; current density; gallium arsenide; indium compounds; infrared spectra; semiconductor quantum dots; solar cells; AI-based structures; InAlGaAs-AlGaAs; InAs-GaAs; absorption spectrum; dot-barrier material system; edge recombination; electron energy levels; energy band profile; growth procedure; intermediate band operation; island density; quantum dot based solar; reverse saturation current density; Energy measurement; Epitaxial growth; Gallium arsenide; PIN photodiodes; Performance evaluation; Temperature measurement; Three-dimensional displays; intermediate band solar cells; molecular beam epitaxy; quantum dots;
Conference_Titel :
Photonics Technologies, 2014 Fotonica AEIT Italian Conference on
Conference_Location :
Naples
Print_ISBN :
978-8-8872-3718-4
DOI :
10.1109/Fotonica.2014.6843942
