Title :
Improved performance due to fast electronic escape in MQW p-i-n solar cells
Author :
Alemu, A. ; Bhusal, L. ; Freundlich, A.
Author_Institution :
Photovoltaics & Nanostructures Group, Houston Univ., USA
Abstract :
This study relates device performance and carrier escape sequence in p-i(MQW)-n solar cells and experimental and theoretical investigations are undertaken. Carrier escape mechanisms and, in particular, the order at which holes and electrons escape from their respective well potentials are found to have a profound impact on device performance. In these InP/InAsP MQW solar cells, the light hole was found to be the first carrier to escape from the quantum wells. As a consequence, a faster electronic escape time as compared to heavy holes escape time is found to be important in these devices. MQW solar cells with high built-in electric field and fast electron escape time display better open circuit voltage and performance.
Keywords :
III-V semiconductors; indium compounds; semiconductor quantum wells; solar cells; InP-InAsP; InP/InAsP MQW solar cells; MQW p-i-n solar cells; carrier escape sequence; device performance; electronic escape; heavy holes; light hole; open circuit voltage; quantum wells; well potentials; Charge carrier processes; Circuits; Displays; Electrons; Indium phosphide; PIN photodiodes; Photovoltaic cells; Potential well; Quantum well devices; Voltage;
Conference_Titel :
Photovoltaic Specialists Conference, 2005. Conference Record of the Thirty-first IEEE
Print_ISBN :
0-7803-8707-4
DOI :
10.1109/PVSC.2005.1488086
