Title :
Quality improvement in a-Si films and their application to a-Si solar cells
Author :
Matsuoka, Tsugufumi ; Kuwano, Yukinori
Author_Institution :
Sanyo Electr. Co. Ltd., Osaka, Japan
fDate :
2/1/1990 12:00:00 AM
Abstract :
A theoretical analysis conducted in order to raise the efficiency of amorphous-silicon (a-Si) solar cells is discussed. Based on the analysis, the quality of the i and p layers was improved. A high-quality a-Si film with a lower impurity concentration and lower defect density than conventional films was fabricated using the super chamber. A reduction in damage to the transparent conductive oxide and an improvement in p and i interface properties was achieved by using a photo-CVD method. This same method was used to study superlattice structure films, to fabricate high-conductivity films with a wider optical bandgap than conventional a-SiC films, and to improve sensitivity in the short-wavelength region. B(CH3)3 was used as a p-type doping gas for a-Si film that had a higher quality than that fabricated using B2H 6. These technologies made possible a conversion efficiency of 11.7% for 1-cm2 single-junction solar cells and a total area conversion efficiency of 9.60% for 100-cm2 single-junction integrated-type submodules
Keywords :
amorphous semiconductors; elemental semiconductors; semiconductor superlattices; silicon; silicon compounds; solar cells; 11.7 percent; 9.6 percent; amorphous Si solar cells; amorphous SiC-Si superlattice; conversion efficiency; defect density; high-conductivity films; impurity concentration; optical bandgap; p-type doping gas; photo-CVD method; single-junction integrated-type submodules; super chamber; superlattice structure films; theoretical analysis; transparent conductive oxide; Amorphous silicon; Conducting materials; Fabrication; Fuels; International trade; Optical losses; Petroleum; Photovoltaic cells; Rain; Solar energy;
Journal_Title :
Electron Devices, IEEE Transactions on
