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Methods of observation and elimination of semiconductor defect states
Authors:Hikaru Kobayashi, Yueh-Ling Liu, Yoshiyuki Yamashita, Jan Iv  n   o, Shigeki Imai,Masao Takahashi
Affiliation:aInstitute of Scientific and Industrial Research, Osaka University, and CREST, Japan Science and Technology Organization, 8-1 Mihogaoka, Ibaraki, Osaka 567-0047, Japan;bDisplay Strategic Planning, Display Technology Development Group, Sharp Corporation, 2613-1, Ichinomoto-Cho, Tenri, Nara 632-8567, Japan
Abstract:A method of observation of interface states for ultrathin insulating layer/semiconductor interfaces is developed by use of X-ray photoelectron spectroscopy (XPS) measurements under bias. The analysis of the energy shift of the semiconductor core level as a function of the bias voltage gives energy distribution of interface states. When the atomic density of SiO2 layers is low (e.g., SiO2 layers formed at 350 °C), only one interface state peak is observed near the midgap, and it is attributed to isolated Si dangling bonds at the interface. For SiO2 layers with a high atomic density (e.g., SiO2 layers formed at 700 °C), on the other hand, two interface state peaks, one above and the other below the midgap, are observed, and they are attributed to Si dangling bonds interacting weakly with a Si or oxygen atom in SiO2. Interface states can be passivated by cyanide treatment which simply involves the immersion in cyanide solutions such as KCN and HCN solutions. When the cyanide treatment is applied to left angle bracketindium tin oxide/SiO2/mat-textured single crystalline Siright-pointing angle bracket metal-oxide-semiconductor (MOS) solar cells, the photovoltage is greatly increased, leading to a high conversion efficiency of 16.2%. When the cyanide treatment is performed on polycrystalline Si (poly-Si)-based MOS diodes, a greater effect in comparison to that for single crystalline Si-based MOS diodes is observed due to the elimination of defect states in poly-Si as well as Si/SiO2 interface states. The cyanide treatment can also increase the conversion efficiency of pn-junction single crystalline and poly-Si solar cells.
Keywords:Defect passivation   Silicon   Cyanide treatment   Solar cells   XPS   Bias
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