1. Doctor-bladed Cu2ZnSnS4 light absorption layer for low-cost solar cell application.
- Author
-
Chen Qin-Miao, Li Zhen-Qing, Ni Yi, Cheng Shu-Yi, and Dou Xiao-Ming
- Subjects
COPPER compounds ,LIGHT absorption ,SOLAR cells ,THIN films ,MECHANICAL chemistry ,BALL mills ,VACUUM ,COST effectiveness - Abstract
The doctor-blade method is investigated for the preparation of Cu
2 ZnSnS4 films for low-cost solar cell application. Cu2 ZnSnS4 precursor powder, the main raw material for the doctor-blade paste, is synthesized by a simple ball-milling process. The doctor-bladed Cu2 ZnSnS4 films are annealed in N2 ambient under various conditions and characterized by X-ray diffraction, ultraviolent/vis spectrophotometry, scanning electron microscopy, and current-voltage (J-V ) meansurement. Our experimental results indicate that (i) the X-ray diffraction peaks of the Cu2 ZnSnS4 precursor powder each show a red shift of about 0.40 ; (ii) the high-temperature annealing process can effectively improve the crystallinity of the doctor-bladed Cu2 ZnSnS4 , whereas an overlong annealing introduces defects; (iii) the band gap value of the doctor-bladed Cu2 ZnSnS4 is around 1.41 eV; (iv) the short-circuit current density, the open-circuit voltage, the fill factor, and the efficiency of the best Cu2 ZnSnS4 solar cell obtained with the superstrate structure of fluorine-doped tin oxide glass/TiO2 /In2 S3 /Cu2 ZnSnS4 /Mo are 7.82 mA/cm2 , 240 mV, 0.29, and 0.55%, respectively. [ABSTRACT FROM AUTHOR]- Published
- 2012
- Full Text
- View/download PDF