One of the most limiting factors in the record conversion efficiency of amorphous/crystalline silicon heterojunction solar cells is the not impressive fill factor value. In this work, with the aid of a numerical model, the ways to enhance the cell fill factor up to 85% are investigated in detail, considering the properties of conventional amorphous-doped films, wider Energy gap layers, and transparent conductive oxide films. The band alignment among the various materials composing the heterojunction is the key to high efficiency but becomes an issue for the solar cell fill factor, if not well addressed. One of the most interesting outcomes of this work is the evidence of hidden barriers arising between the transparent conductive oxide and both selective contacts, due to the mismatch between their work functions. The measurement of light current-voltage characteristics performed at low temperature is proposed as a way to identify the presence of these barriers in efficient solar cells that do not possess high fill factor values. Experimental J-V characteristics compared with numerical simulations demonstrated that the sometimes neglected cell base contact needs instead a more careful consideration. To this aim, a model to predict the presence of a hidden barrier at the base contact that limits the cell fill factor is proposed.

Silicon heterojunction solar cells toward higher fill factor / Martini, L.; Serenelli, L.; Menchini, F.; Izzi, M.; Tucci, M.. - In: PROGRESS IN PHOTOVOLTAICS. - ISSN 1062-7995. - 28:4(2020), pp. 307-320. [10.1002/pip.3241]

Silicon heterojunction solar cells toward higher fill factor

Martini L.;Menchini F.;Izzi M.;Tucci M.
2020

Abstract

One of the most limiting factors in the record conversion efficiency of amorphous/crystalline silicon heterojunction solar cells is the not impressive fill factor value. In this work, with the aid of a numerical model, the ways to enhance the cell fill factor up to 85% are investigated in detail, considering the properties of conventional amorphous-doped films, wider Energy gap layers, and transparent conductive oxide films. The band alignment among the various materials composing the heterojunction is the key to high efficiency but becomes an issue for the solar cell fill factor, if not well addressed. One of the most interesting outcomes of this work is the evidence of hidden barriers arising between the transparent conductive oxide and both selective contacts, due to the mismatch between their work functions. The measurement of light current-voltage characteristics performed at low temperature is proposed as a way to identify the presence of these barriers in efficient solar cells that do not possess high fill factor values. Experimental J-V characteristics compared with numerical simulations demonstrated that the sometimes neglected cell base contact needs instead a more careful consideration. To this aim, a model to predict the presence of a hidden barrier at the base contact that limits the cell fill factor is proposed.
2020
base contact; energy barrier; fill factor; heterojunctions; simulations; TCO
01 Pubblicazione su rivista::01a Articolo in rivista
Silicon heterojunction solar cells toward higher fill factor / Martini, L.; Serenelli, L.; Menchini, F.; Izzi, M.; Tucci, M.. - In: PROGRESS IN PHOTOVOLTAICS. - ISSN 1062-7995. - 28:4(2020), pp. 307-320. [10.1002/pip.3241]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1416246
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