Abstract
Molybdenum (Mo) films were deposited by radio frequency (RF), direct current (DC) and mixed magnetron sputtering, respectively. With changing the deposition parameters including deposition pressure and power, the films show different surface morphology and crystallinity. Lower resistivity of the films is obtained in the DC mode and better reflectivity of the films is obtained in the RF mode. It is shown that the crystallinity increases when the deposition pressure decreases. The crystallinity and the grain size both increase as the deposition power increasing. The lowest resistivity of the single Mo film is 34×10-6 Ω·cm when the deposition pressure is 0.1 Pa and the deposition power is 300 W in the DC mode. In order to obtain lower resistivity, better adhesion and better reflectivity, bilayer films and tri-layer films were both deposited in different mode. They all show good adhesion and low resistivity. The Mo films deposited in mixed mode show better reflectivity. It is demonstrated that the resistivity of about 65×10-6 Ω·cm is achieved in DC/RF mode and the resistivity of about 61×10-6 Ω·cm is achieved in RF/DC/RF mode. And the tri-layer films achieved in RF/DC/RF mode have better reflectivity than bilayer films achieved in DC/RF mode. The tri-layer films achieved in RF/DC/RF mode is appropriate for using as the electrode of CIGS solar cells.
Highlights
Solar energy is sustainable alternative energy sources and solar cell has been studied continually
Rougher film morphology, higher deposition rate and lower resistivity are obtained in direct current (DC) films
The radio frequency (RF) films possess higher resistivity compared with the DC films
Summary
Solar energy is sustainable alternative energy sources and solar cell has been studied continually. It is reported that the highest efficiency of CIGS solar cell could reach up to 21.7%.3. Preparation technology for high efficiency CIGS thin film solar cells include three-stage deposition process, magnetron sputtering and co-evaporation technique.[4,5,6] The Mo films as back electrode of CIGS solar cells play an important role in improving the efficiency of the cells. The comparison of Mo metal and other materials indicate Mo is an ideal back contact material for CIGS solar cells, because of its inertness and high conductivity.[7] it is difficult to obtain the low resistivity and the good adhesion simultaneously. Blosch et al reported that the molybdenum films were deposited on stainless steel foils.[10] Cherng-Yuh Su et al studied the
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