Papers by Author: Xiao Dan Zhang

Paper TitlePage

Authors: Hui Zhi Ren, Ying Zhao, Xiao Dan Zhang, Hong Ge, Zong Pan Wang
Abstract: Superscript textHigh conductivity,high crystalline volume fraction p-type microcrystaline silicon(p-μc-Si:H) thin films prepared by high-pressure VHF-PECVD are reported in this paper.The effects of the boron concentration, the silane concentration and the plasma power on the microstructures and electrical characteristics of P-μc-Si:H thin films are investigated. The results show that the microstructures and electrical characteristics of thin films relied on the deposition parameters. By optimizing the deposition parameters, very thin(31 nm) P-μc-Si:H thin films have been obtained at the doping ratio of 0.4% , SC at 1.2% and power at 1800W. The Xc of P-μc-Si:H thin films was 67% with 4.3% uniformity ,the dark conductivity was 0.68S/cm with 5.1% uniformity. By employing this P-μc-Si:H thin films, an initial conversion efficiency of 8.12% was obtained for a 0.79 m2 a-Si:H/μc-Si:H tandem module by Al as back reflector.
678
Authors: Hui Zhi Ren, Ying Zhao, Xiao Dan Zhang, Hong Ge, Zong Pan Wang
Abstract: We report on microcrystalline silicon thin films and a-Si:H/a-SiGe:H/μc-Si:H triple-junction p-i-n solar cells deposited on large-area glass substrate. Microcrystalline silicon (μc-Si:H) bottom cells were deposited at a VHF-PECVD deposition system with 40.68MHz. It is necessary to develop the uniformity of μc-Si:H thin films for large-area deposition of high-quality triple-junction solar cells. By optimizing the deposition parameters, μc-Si:H thin films have been obtained with good thickness and very good crystalline volume fractions uniformity over the whole substrates area. The triple-junction module have been successful fabricated. The best module on 0.79 m2 size substrates has an initial total-area efficiency of 8.35%.
1912
Showing 1 to 2 of 2 Paper Titles