Matteo De Tullio scite author profile

Polycrystalline Si (poly‐Si)‐based passivating contacts are promising candidates for high‐efficiency crystalline Si solar cells. We show that nanosecond‐scale pulsed laser melting (PLM) is an industrially viable technique to fabricate such contacts with precisely controlled dopant concentration profiles that exceed the solid solubility limit. We demonstrate that conventionally doped, hole‐selective poly‐Si/SiOx contacts that provide poor surface passivation of c‐Si can be replaced with Ga‐ or B‐doped contacts based on non‐equilibrium doping. We overcome the solid solubility limit for both dopants in poly‐Si by rapid cooling and recrystallization over a timescale of ∼25 ns. We show an active Ga dopant concentration of ∼3 × 1020 cm−3 in poly‐Si which is six times higher than its solubility limit in c‐Si, and a B dopant concentration as high as ∼1021 cm−3. We measure an implied open‐circuit voltage of 735 mV for Ga‐doped poly‐Si/SiOx contacts on Czochralski Si with a low contact resistivity of 35.5 ± 2.4 mΩ cm2. Scanning spreading resistance microscopy and Kelvin probe force microscopy show large diffusion and drift current in the p‐n junction that contributes to the low contact resistivity. Our results suggest that PLM can be extended for hyperdoping of other semiconductors with low solubility atoms to enable high‐efficiency devices.

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Matteo De Tullio

Electrical analysis of pulsed laser annealed Poly-Si: Ga/SiOx passivating contacts

Pulsed Laser Annealed Ga HyperdopedPoly‐Si/SiO_xPassivating Contacts for High‐Efficiency Monocrystalline Si Solar Cells

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Matteo De Tullio

Electrical analysis of pulsed laser annealed Poly-Si: Ga/SiOx passivating contacts

Pulsed Laser Annealed Ga HyperdopedPoly‐Si/SiOxPassivating Contacts for High‐Efficiency Monocrystalline Si Solar Cells

Contact Info

Product

Resources

About

Pulsed Laser Annealed Ga HyperdopedPoly‐Si/SiO_xPassivating Contacts for High‐Efficiency Monocrystalline Si Solar Cells