1 research outputs found
Growth and Device Characteristics of CZTSSe Thin-Film Solar Cells with 8.03% Efficiency
The improvement of the efficiency
of Cu<sub>2</sub>ZnSn(S,Se)<sub>4</sub> (CZTSSe)-based solar cells
requires the formation of high-grain-sized
pure CZTSSe throughout the film. We have successfully selenized precursor
samples of Cu/SnS/ZnS/Mo/Soda lime glass in an almost sealed selenium
furnace. Owing to the presence of confined and high-pressure Se vapor
in the furnace, Se easily diffused into the precursor samples, and
high-quality Se-rich CZTSSe absorbers were obtained. To understand
the effect of the growth mechanism in our precursor and annealing
system, this study examines the phase evolution and grain formation.
Device parameters are discussed from the perspective of a material
microstructure in order to improve performance. At a selenization
temperature of 570 °C, a CZTSSe film showed fully developed grains
with a size of around 2 μm without noticeable pore development
near the Mo back contact. Solar cells with up to 8.03% efficiency
were obtained with a layer thickness of about 1.2 μm. Detailed
electrical analysis of the device indicated that the performance of
the device is mainly associated with shunt resistance