Journal
JOURNAL OF APPLIED PHYSICS
Volume 92, Issue 5, Pages 2602-2609Publisher
AMER INST PHYSICS
DOI: 10.1063/1.1495529
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We have analyzed the role of the bond densities of a-SiNx:H films on the passivation properties at the SiNx:H/Si interface. The films are deposited onto silicon wafers by plasma enhanced chemical vapor deposition using a 13.56 MHz direct plasma system and a SiH4/N-2/H-2 gas mixture. Fourier transform infrared spectroscopy measurements are performed in order to obtain the bonding concentration of Si-Si, Si-H, Si-N and N-H. The passivation properties are deduced by lifetime measurements using a microwave-detected photoconductance decay technique. Carrier lifetimes of the SiNx:H-passivated silicon wafers of up to 1200 mus correlate to surface recombination velocities, S-eff, as low as 4-6 cm/s. This means that the films provide excellent passivation of silicon surfaces, which is necessary for high-efficiency solar cells. The Si-H bond density and the total bond density are considered as measures of the passivation quality. Models for the formation of K+ centers and for the passivation pathways during the plasma deposition are proposed. The addition of a further hydrogen source to the plasma gas (H-2) leads to a better defect passivation of Si dangling bonds during the deposition. (C) 2002 American Institute of Physics.
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