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Optical analysis of the microstructure of a Mo back contact for Cu(In,Ga)Se-2 solar cells and its effects on Mo film properties and Na diffusivity

Authors
Yoon, Ju-HeonCho, SunghunKim, Won MokPark, Jong-KeukBaik, Young-JoonLee, Taek SungSeong, Tae-YeonJeong, Jeung-hyun
Issue Date
11월-2011
Publisher
ELSEVIER
Keywords
Molybdenum back contact; Film porosity; Spectroscopic ellipsometry; Cu(In,Ca)Se-2 solar cell
Citation
SOLAR ENERGY MATERIALS AND SOLAR CELLS, v.95, no.11, pp.2959 - 2964
Indexed
SCIE
SCOPUS
Journal Title
SOLAR ENERGY MATERIALS AND SOLAR CELLS
Volume
95
Number
11
Start Page
2959
End Page
2964
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/111319
DOI
10.1016/j.solmat.2011.02.030
ISSN
0927-0248
Abstract
The microstructures of molybdenum (Mo) thin films deposited at pressures from 3.3 to 10.3 mTorr were characterized, and the relationships between these microstructures and the properties of the films (residual stress and electrical resistivity) were investigated. In the low deposition pressure regime (region I, below 7 m Torr), the residual stress in the tensile direction increases with increasing pressure and the electrical resistivity increases gradually, but at high deposition pressures (region II, above 7 m Tort) the residual stress is reduced and the resistivity increases more steeply. These variations of the properties of the Mo films in the low pressure regime are due to the variation in grain size; the carrier mobility decreases due to increased grain boundary (GB) scattering and the tensile stress increases due to increased atomic attraction across the GBs. In contrast, the porosity of the Mo films increases significantly in the high pressure regime, as demonstrated with variable angle spectroscopic ellipsometry (VASE). Most of these pores are believed to be present along the grain boundaries of the Mo films, so their presence reduces the GB attraction and thus the tensile stress and enhances the carrier scattering. The high porosity of the Mo back contact was shown with secondary ion mass spectroscopy profiling to accelerate the Na diffusion from soda-lime glass into the Cu(In,Ga)Se-2 (CIGS) film. (C) 2011 Elsevier B.V. All rights reserved.
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공과대학 (신소재공학부)
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