Enhancement of the photo conversion efficiencies in Cu(In,Ga)(Se,S){sub 2} solar cells fabricated by two-step sulfurization process

Cu(In,Ga)(Se,S){sub 2} (CIGSS) absorber layers were fabricated by using a modified two-stage sputter and a sequential selenization/sulfurization method, and the sulfurization process is changed from one-step to two-step. The two-step sulfurization was controlled with two different H{sub 2}S gas conc...

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Bibliographic Details
Published in:Applied physics letters 2015-11, Vol.107 (19)
Main Authors: Yang, JungYup, Nam, Junggyu, Kim, Dongseop, Lee, Dongho, Kim, GeeYeong, Jo, William, Kang, Yoonmook
Format: Article
Language:English
Subjects:
DEPTH
EFFICIENCY
ELECTRIC CONDUCTIVITY
GRAIN BOUNDARIES
HYDROGEN SULFIDES
MASS SPECTROSCOPY
MATERIALS SCIENCE
SCANNING ELECTRON MICROSCOPY
SOLAR CELLS
X-RAY DIFFRACTION
YIELDS
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Summary:Cu(In,Ga)(Se,S){sub 2} (CIGSS) absorber layers were fabricated by using a modified two-stage sputter and a sequential selenization/sulfurization method, and the sulfurization process is changed from one-step to two-step. The two-step sulfurization was controlled with two different H{sub 2}S gas concentrations during the sulfurization treatment. This two-step process yielded remarkable improvements in the efficiency (+0.7%), open circuit voltage (+14 mV), short circuit current (+0.23 mA/cm{sup 2}), and fill factor (+0.21%) of a CIGSS device with 30 × 30 cm{sup 2} in size, owing to the good passivation at the grain boundary surface, uniform material composition among the grain boundaries, and modified depth profile of Ga and S. The deterioration of the P/N junction quality was prevented by the optimized S content in the CIGSS absorber layer. The effects of the passivation quality at the grain boundary surface, the material uniformity, the compositional depth profiles, the microstructure, and the electrical characteristics were examined by Kelvin probe force microscopy, X-ray diffraction, secondary ion mass spectrometry, scanning electron microscopy, and current-voltage curves, respectively. The two-step sulfurization process is experimentally found to be useful for obtaining good surface conditions and, enhancing the efficiency, for the mass production of large CIGSS modules.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.4935333