Takayuki Motoki, K. Yasuta, Hidenao Suzuki, Tomohiko Nakamura, M. Hasumi, T. Sameshima, T. Mizuno
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Surface passivation of crystalline silicon by heat treatment in liquid water
A high photo-induced effective minority carrier lifetime τeff of crystalline silicon was achieved by simple heat treatment in liquid water. τeff was 2.8×10-3 s for 15-Ωcm n-type crystalline silicon heat treated in liquid water at 120°C for 1.5 h. The τeff for the sample treated at 90°C increased from 1.0×10-4 s (just after the treatment) to 1.7×10-3 s by keeping the sample in the air atmosphere for 700 h. τeff maintained high values up to 1800 h. The metal-insulator-semiconductor type diodes were formed by forming Al and Au metals on the 0.7-nm-thick passivated layers. Rectified current characteristics were observed in the dark field because of the difference of the work function between Al and Au. Capacitance response with the bias voltage suggested low density of interface traps. Short circuit current density of 24.3 mA/cm2 and open circuit voltage of 0.36 V were observed in the MIS-type solar cell under the light illumination of AM 1.5 at 100 mW/cm2 to the rear surface.
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