Hole-Collection Mechanism in Passivating Metal-Oxide Contacts on Si Solar Cells: Insights From Numerical Simulations

Hole-Collection Mechanism in Passivating Metal-Oxide Contacts on Si Solar Cells: Insights From Numerical Simulations

Silicon heterojunction solar cells enable high conversion efficiencies, thanks to their passivating contacts which consist of layered stacks of intrinsic and doped amorphous silicon. However, such contacts may reduce the photo current, when present on the illuminated side of the cell. This motivates...

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Veröffentlicht in:IEEE journal of photovoltaics 2018-03, Vol.8 (2), p.473-482
Hauptverfasser: Vijayan, Ramachandran Ammapet, Essig, Stephanie, De Wolf, Stefaan, Ramanathan, Bairava Ganesh, Loper, Philipp, Ballif, Christophe, Varadharajaperumal, Muthubalan
Format: Artikel
Sprache:eng
Schlagworte:
Doping
Electron traps
Hole collection
passivating contacts
Photonic band gap
Photovoltaic cells
Semiconductor device modeling
Semiconductor process modeling
silicon heterojunction (SHJ) solar cell
simulation
transition metal oxides
Tunneling
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Zusammenfassung:Silicon heterojunction solar cells enable high conversion efficiencies, thanks to their passivating contacts which consist of layered stacks of intrinsic and doped amorphous silicon. However, such contacts may reduce the photo current, when present on the illuminated side of the cell. This motivates the search for wider bandgap contacting materials, such as metal oxides. In this paper, we elucidate the precise impact of the material parameters of MoO x on device characteristics, based on numerical simulations. The simulation results allow us to propose design principles for hole-collecting induced junctions. We find that if MoO x has a sufficiently high electron affinity (≥5.7 eV), direct band-to-band tunneling is the dominant transport mechanism; whereas if it has a lower electron affinity (
ISSN:2156-3381
2156-3403
DOI:10.1109/JPHOTOV.2018.2796131