Zinc borosilicate thick films as a Ag-protective layer for dye-sensitized solar cells

Authors
Yeon, D.H.Lee, E.Y.Kim, K.G.Park, N.G.Cho, Y.S.
Issue Date
2009-06
Citation
Journal of the Korean Ceramic Society, v.46, no.3, pp.313 - 316
Abstract
A zinc borosilicate glass having a low softening temperature of 490°C has been investigated as a protective layer for Ag patterns against chemical reactions with a I-I3- electrolyte in dye-sensitized solar cells (DSSCs). A thick glass layer was prepared by the typical screen printing and firing processes to obtain a final thickness of ∼5 μrn. The chemical leaching performance of the glass layer in the electrolyte revealed that the reactive Ag pattern can be significantly protected by utilizing the low softening protective layer. The electrical resistance of the FTO-coated glass substrate was effectively maintained at a low value of ∼27 Ω as long as the glass layer was well densified at a sufficiently high temperature of ∼520°C. The transmittance of the layer was near 60%, depending on the firing temperature of the glass layer.
Keywords
Chemical leaching; Coated glass substrates; Dye-Sensitized solar cell; Dye-sensitized solar cells; Electrical properties; Electrical property; Electrical resistances; Firing process; Firing temperature; Glass layers; High temperature; Protective layers; Softening temperature; Zinc borosilicate glass; Electric properties; Electrolytes; Grafting (chemical); Leaching; Photoelectrochemical cells; Silver; Solar cells; Substrates; Synthesis (chemical); Thick films; Zinc; Borosilicate glass; Chemical leaching; Coated glass substrates; Dye-Sensitized solar cell; Dye-sensitized solar cells; Electrical properties; Electrical property; Electrical resistances; Firing process; Firing temperature; Glass layers; High temperature; Protective layers; Softening temperature; Zinc borosilicate glass; Electric properties; Electrolytes; Grafting (chemical); Leaching; Photoelectrochemical cells; Silver; Solar cells; Substrates; Synthesis (chemical); Thick films; Zinc; Borosilicate glass; Borosilicate glass; Electrical properties; Substrate
ISSN
1229-7801
URI
https://pubs.kist.re.kr/handle/201004/132469
DOI
10.4191/KCERS.2009.46.3.313
Appears in Collections:
KIST Article > 2009
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