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SYNTHESIS STRATEGY OF F:SnO2 POWDER FOR TCO-LESS DSSCs FABRICATION
http://hdl.handle.net/20.500.12678/0000003036
http://hdl.handle.net/20.500.12678/0000003036c08474ad-512d-475a-8707-62dd5ede64bc
afde3cfe-ad10-48e4-b9b0-4029132e39a9
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SYNTHESIS STRATEGY OF FSnO2 POWDER FOR.pdf (960 Kb)
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Publication type | ||||||
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Journal article | ||||||
Upload type | ||||||
Publication | ||||||
Title | ||||||
Title | SYNTHESIS STRATEGY OF F:SnO2 POWDER FOR TCO-LESS DSSCs FABRICATION | |||||
Language | en | |||||
Publication date | 2020-07-14 | |||||
Authors | ||||||
Ohnmar Soe | ||||||
Pho Kaung | ||||||
Aye Aye Thant | ||||||
Description | ||||||
In order to improve the photo catalytic properties, fluorine doped tin oxide (F: SnO2) nanopowder was synthesized by sol-gel auto-combustion process. The X-ray diffraction and SEM analysis have confirmed the formation of structure, the grain size and the morphology of nanoporous F:SnO2 powder. The synthesis strategy reflected from the microstructure has been investigated. In Dye Sensitized Solar Cells (DSSCs) fabrication, SnO2 is sensitized with chemical dyes to enhance its efficiency. UV-Vis response of pure and doped (F: SnO2) were investigated by using UV-1800 Shimadzu spectrophotometer. Some of these materials were applied in the fabrication of Dye Sensitized Solar Cells without Transparent Conductive Oxide layer (TCO-less DSSCs). The current-voltage measurements of the fabricated solar cells revealed the enhancement of energy conversion efficiency, long-term stability and cost effectiveness of DSSCs. |
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Keywords | ||||||
F:SnO2 | ||||||
Journal articles | ||||||
2 | ||||||
Myanmar Academy of Arts and Science | ||||||
245-253 | ||||||
Vol. XVIII |