摘要
The relationship between bilayer nanostructure, defect density and dye-sensitized solar cell (DSCC) per- formances was investigated. By adjusting bilayer nano- structures, defect density of ZnO nanodendrite-nanorods structure was decreased comparing to that of nanoflower- nanorods structure. The performances of DSCC based on ZnO nanodendrites-nanorods structure and nanoflower- nanorods structure were studied by Raman spectrum, room temperature photoluminescence, dye loading, photocurrent density-voltage characteristic and open-circuit voltage decay (OCVD) technique. The device with nanodendrite- nanorods structure has lower charge recombination rate and prolonged electron lifetime due to its microstructure feature.
The relationship between bilayer nanostructure, defect density and dye-sensitized solar cell (DSCC) per- formances was investigated. By adjusting bilayer nano- structures, defect density of ZnO nanodendrite-nanorods structure was decreased comparing to that of nanoflower- nanorods structure. The performances of DSCC based on ZnO nanodendrites-nanorods structure and nanoflower- nanorods structure were studied by Raman spectrum, room temperature photoluminescence, dye loading, photocurrent density-voltage characteristic and open-circuit voltage decay (OCVD) technique. The device with nanodendrite- nanorods structure has lower charge recombination rate and prolonged electron lifetime due to its microstructure feature.
基金
the supports of Shanghai Leading Academic Discipline Project(Grant No.S30107)
National Natural Science Foundation of China(Grant No.51202138)
Natural Science Foundation of Shanghai(Grant No.12ZR1410500)
Research&Innovation Projects of Shanghai Education Commission(Grant No.11YZ22)
Project of Shanghai Environment Condition(Grant No.10dz2252300)
Science Foundation for Excellent Youth Scholars of Shanghai University
Science Foundation for Excellent Youth Scholars of Universities(Shanghai)
