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Binary oxide, XRD, DSSC, conversion efficiency, fill factor.

http://hdl.handle.net/20.500.12678/0000001966
959e6914-6c87-4c5a-aea8-1dbeef7e96ff
9f5af8ae-71ae-4bbc-9f98-71ddfda5c8a0
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Binary Binary Oxide Photoelectrode with Coffee Natural Dye Extract for DSSC Application.pdf (730 Kb)
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Other
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Title
Title Binary oxide, XRD, DSSC, conversion efficiency, fill factor.
Language en
Publication date 2014
Authors
Moe Moe Aye
Than Than Win
Yin Maung Maung
Ko Ko Kyaw Soe
Description
SnO2 (x) – ZnO (1-x) binary system with two different SnO2 composition (x= 3, 5 mol%) were prepared by solid state reaction at high temperature employed as photoanode for dye sensitized solar cell(DSSC) fabrication. SnO2-ZnO binary oxide was characterized by X-ray diffraction(XRD) and UV-VIS Spectroscopy to examine their structure and optical properties. High performance carbon electrode was prepared onto glass and used as counter electrode. Coffee powder was used as natural dye-sensitized. The improvement in device efficiency was achieved by larger SnO2 composition. The overall power conversion efficiency increased from 0.18% for SnO2:ZnO (3:97mol %) device to 0.26% for a device with SnO2:ZnO (5:95mol %) photoanode.
Keywords
Binary oxide
Identifier https://uyr.uy.edu.mm/handle/123456789/360
Journal articles
International Journal of Innovation and Scientific Research
8
Conference papaers
Books/reports/chapters
Thesis/dissertations
0
0
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