Hydrogen-Assisted Defect-Engineering of Doped Poly-Si Films for Passivating Contact Solar Cells
ACS APPLIED ENERGY MATERIALS(2019)
摘要
Hydrogen-assisted defect engineering, via a hydrogenated silicon nitride (SiNx:H) capping layer, on doped polycrystalline silicon (poly-Si) passivating-contact structures, is explored using complementary techniques. The hydrogen treatment universally improves the passivation quality of poly-Si/SiOx stacks on all samples investigated. Meanwhile, their contact resistivity remains very low at similar to 6 m Omega.cm(2). Moreover, the nature of charge carrier recombination within the poly-Si films is also investigated by means of photoluminescence. On planar c-Si substrates, the poly-Si films emit two broad photoluminescence peaks at similar to 850-1050 and similar to 1300-1500 nm. The former is the characteristic peak of the hydrogenated amorphous Si (a-Si:H) phase and only appears after the treatment, demonstrating that (i) a significant amount of hydrogen has been driven into the poly-Si film and (ii) an amorphous phase is present within it. The second peak originates from sub-band-gap radiative defects inside the poly-Si films and increases after the treatment, suggesting a suppression of their nonradiative recombination channels. For films deposited on textured c-Si substrates, there is a disrupted oxide boundary, preventing a buildup of excess carriers inside the films and leading to quenching of the film luminescence.
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关键词
hydrogenation,doped polycrystalline silicon,amorphous silicon,passivating contacts,photoluminescence
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