To increase the performances of amorphous silicon n-i-p solar cell, we investigate the possibility to enhance the built-in potential inserting thin high-conductivity chromium silicide layers at interfaces between metal electrodes and doped regions. We found that chromium silicide, formed on top of amorphous doped layer during chromium film evaporation, allows a reduction of activation energy of about 0.225 eV for n- and p-doped amorphous films. The activation energy reduction contributes to both built-in and open-circuit voltage enhancements, as demonstrated by comparing simulated and measured photovoltaic performances of n-i-p amorphous silicon solar cell with and without the chromium silicide layers.
Built-in Enhancement in a-Si:H Solar Cell by Chromium Silicide Layer / Caputo, Domenico; DE CESARE, Giampiero; Mario, Tucci. - In: IEEE ELECTRON DEVICE LETTERS. - ISSN 0741-3106. - 31:7(2010), pp. 689-691. [10.1109/led.2010.2047233]
Built-in Enhancement in a-Si:H Solar Cell by Chromium Silicide Layer
CAPUTO, Domenico;DE CESARE, Giampiero;
2010
Abstract
To increase the performances of amorphous silicon n-i-p solar cell, we investigate the possibility to enhance the built-in potential inserting thin high-conductivity chromium silicide layers at interfaces between metal electrodes and doped regions. We found that chromium silicide, formed on top of amorphous doped layer during chromium film evaporation, allows a reduction of activation energy of about 0.225 eV for n- and p-doped amorphous films. The activation energy reduction contributes to both built-in and open-circuit voltage enhancements, as demonstrated by comparing simulated and measured photovoltaic performances of n-i-p amorphous silicon solar cell with and without the chromium silicide layers.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
