An illumination-dependent analysis of silicon nanocrystal p-i-n solar cells is presented within the framework of the constant field approximation. Silicon nanocrystals in silicon carbide were prepared by solid-phase crystallization and contacted with doped a-SixC1-x:H. This paper aims at determining the fundamental transport and recombination properties, i.e., the effective mobility lifetime product, of the nanocrystal layer at device level. Illumination-dependent current-voltage curves are modelled with a voltage-dependent collection function with only two free parameters, and excellent agreement is found between theory and experiment. An effective mobility lifetime product of 10(-10) cm(2)/V is derived and confirmed independently from an alternative method. (C) 2013 American Institute of Physics. [http://dx.doi.org/10.1063/1.4789441]
Silicon nanocrystals embedded in silicon carbide: Investigation of charge carrier transport and recombination
Canino;Summonte;Caterina;
2013
Abstract
An illumination-dependent analysis of silicon nanocrystal p-i-n solar cells is presented within the framework of the constant field approximation. Silicon nanocrystals in silicon carbide were prepared by solid-phase crystallization and contacted with doped a-SixC1-x:H. This paper aims at determining the fundamental transport and recombination properties, i.e., the effective mobility lifetime product, of the nanocrystal layer at device level. Illumination-dependent current-voltage curves are modelled with a voltage-dependent collection function with only two free parameters, and excellent agreement is found between theory and experiment. An effective mobility lifetime product of 10(-10) cm(2)/V is derived and confirmed independently from an alternative method. (C) 2013 American Institute of Physics. [http://dx.doi.org/10.1063/1.4789441]I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
