Ruthenium(II) Quasi-Solid State Dye Sensitized Solar Cells with 8% Efficiency using Supramolecular Oligomer Based Electrolyte
SCIE
SCOPUS
- Title
- Ruthenium(II) Quasi-Solid State Dye Sensitized Solar Cells with 8% Efficiency using Supramolecular Oligomer Based Electrolyte
- Authors
- Joseph, KLV; Anthonysamy, A; Sudhagar, P; Woohyung Cho; Young Soo Kwon; Park, T; Yong Soo Kang; Kim, JK
- Date Issued
- 2014-09-07
- Publisher
- Royal Society of Chemistry
- Abstract
- We have achieved 8% efficiency for the ruthenium(ii) dye, SY-04, in quasi-solid state dye sensitized solar cells using a supramolecular oligomer-based electrolyte. The dyes in this study, SY-04 and SY-05, which were synthesized through highly efficient synthetic routes, showed better molar extinction coefficients compared to that of the Z907 dye. In the absorption spectra, SY-04 and SY-05 displayed better red shifted metal ligand charge transfer (MLCT) absorption bands at 533, 382 and 535, 373 nm, respectively, compared with 521, 371 nm of the Z907 dye. Also, SY-04 and SY-05 showed better molar extinction coefficients, 6691, 16 189 M-1 cm(-1) and 6694, 16 195 M-1 cm(-1) as compared with the Z907 dye, 4308, 4917 M-1 cm(-1). When excited into the charge-transfer absorption bands of SY-04 and SY-05 in ethanol at 77 K, broad emission bands for SY-04 and SY-05 with a maximum at 788 nm and 786 nm, respectively, were observed compared to the emission band of Z907 at 797 nm. The current-voltage characteristics of the SY-04 sensitizer gave the best performance data, J(SC) = 18.0 mA cm(-2), V-OC = 0.662 V, if = 0.663, and an eta of 8.0%. The increased V-OC value for SY-04 than Z907 is mainly attributed to high charge recombination resistance by effective dye coverage, which is confirmed by impedance spectroscopy.
- Keywords
- POLYMER GEL ELECTROLYTE; IMPEDANCE SPECTROSCOPY; PHOTOELECTROCHEMICAL CELLS; CHARGE RECOMBINATION; REDOX ELECTROLYTE; PERFORMANCE; PEROVSKITE; TRANSPORT
- URI
- https://oasis.postech.ac.kr/handle/2014.oak/14196
- DOI
- 10.1039/C4TA02284J
- ISSN
- 2050-7488
- Article Type
- Article
- Citation
- JOURNAL OF MATERIALS CHEMISTRY A, vol. 2, no. 33, page. 13338 - 13344, 2014-09-07
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