10.24% Efficiency of Flexible Cu2ZnSn(S,Se)4 Solar Cells by Pre-Evaporation Selenization Technique

Flexible Cu2ZnSn(S,Se)(4) (CZTSSe) solar cells show great potential due to non-toxicity and low cost. The quality of CZTSSe absorber suffering from the high-temperature selenization process is the key to overcoming open-circuit voltage (V-OC) deficit and obtaining high efficiency. In this work, the authors develop a selenization technique to improve the quality of the CZTSSe layer by pre-evaporation selenization. This method provides saturated selenium vapor at the beginning of the selenization process to promote the crystallization process. The oversaturated selenium source greatly shortens the annealing time at high temperatures. The prepared CZTSSe films have larger grains and fewer voids. The measurement of the space charge limited current shows that the defect density of the CZTSSe absorber is significantly reduced from 4.43 x 10(13) cm(-3) to 3.46 x 10(13) cm(-3). Electrical tests show that the devices have better charge separation at the interface, resulting in a charge recombination lifetime, increasing from 133 to 197 mu s. The power conversion efficiency of the flexible CZTSSe solar cell reaches 10.24% with V-OC and the fill factor enhances to 463 mV and 62%, respectively. The safe non-toxicity and efficient selenization method is expected to provide a new strategy for high-efficiency flexible CZTSSe solar cells.

Automated summary

In this study, the authors developed a selenization technique to improve the quality of the CZTSSe layer in flexible solar cells. By pre-evaporation selenization, they were able to promote crystallization and reduce defects in the CZTSSe absorber, resulting in higher conversion efficiency. This safe and efficient method could offer a new strategy for high-efficiency flexible CZTSSe solar cells.