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Pleas De ad l to o nn oT tr aa nd sj au cs t ti omn as rgins
Journal Name
ARTICLE
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Rev., 2011, 15(3), 1513
DOI: 10.1039/C8DT01588K
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T. Li, N. Ameri and C.J. Brabec, Energ. Environ. Sci., 2013, 6(8),
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N. Manaf, Organic/inorganic Hybrid Solar Cells Based on
Electroplated CdTe, Sheffield Hallam University. Materials
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P3HT:PCBM (Dark)
P3HT:PCBM (Light)
P3HT:PCBM:CC (Dark)
P3HT:PCBM:CC (Light)
-
-
-
1.0
-0.5
0.0
0.5
1.0
1.5
2.0
Applied voltage (V)
9
1
1
1
Y.S. Kim, Y. Lee, J.K. Kim, E.O. Seo, E.W. Lee, W. Lee, S.H. Han
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1 B. Kadem, A. Hassan, M. Göksel, T. Basova, A. Şenocak, E.
Figure 10. The J(V) characteristics of the pristine P3HT:PCBM and P3HT:PCBM:CC-
based OSCs.
Demirbaş and M. Durmuş, RSC Advances, 2016, 6, 93453.
Conclusions
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oxide:Coumarin
(GC),
SWCNTs:BODIPY
(CB)
and
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SWCNTs:Coumarin (CC)) hybrid nanomaterials were prepared.
The structures of the BODIPY and coumarin compounds were
1
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determined by FT-IR, 1H NMR, MALDI-TOF mass, cyclic 17 R. L. Vekariya, J. V. Vaghasiya and A. Dhar, Organic Electronics,
voltammetry and UV–Vis, while their hybrid materials were
characterized by FT-IR, Raman, UV–Vis spectroscopies and
thermogravimetric analysis. The surface morphology of these
hybrid films were determined by SEM. Absorption spectra of the
hybrids in P3HT:PCBM blend showed higher variation in the
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Polyhedron, 2016, 110, 37.
values were estimated using the Tauc equation in UV–Visible
absorption spectra as 2.44 eV for BODIPY, 2.85 eV for coumarin,
2
2
.39 eV for CB, 2.77 eV for CC, 2.37 eV for GB and 2.80 eV for
GC. The highest value for the solar cell efficiency on ITO glass at 23 E.B. Orman, A. Koca, A.R. Özkaya, I. Gürol M. Durmuş and V.
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8
.95 mA.cm was calculated to be 3.59%. This corresponded to
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an increase of 37% efficiency with CC.
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Conflicts of interest
There are no conflicts to declare.
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2
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7 W. Ma, C. Yang, X. Gong, K. Lee and A.J. Heeger, Adv. Funct.
Mater., 2015, 15, 1617.
8 B. Kadem, M.K. Al-Hashimi and A. Hassan, Energy Procedia,
Acknowledgements
Partial work (CC and CB) of this study was supported by a project
2
014, 50, 237.
9 a) B. Ballesteros, G. de la Torre, C. Ehli, G.M.A. Rahman, F.
Agullo-Rueda, D.M. Guldi and T. Torres, J. Am. Chem. Soc.,
from the Scientific and Technological Research Council of Turkey
2
007 129, 5061. b) C. Casiraghi, A. Hartschuh, H. Qian, S.
(
TUBITAK) (Project number: 115Z734). We wish to thank TUBITAK
Pliscanec, C. Georgia, A. Fasoli, K.S. Novoselov, D.M. Basko,
and A.C. Ferrari, Nano Lett., 2009, , 1433.
ULAKBIM, High Performance and Grid Computing Center (TR-Grid e-
Infrastructure) for the calculations reported in the theoretical part of
this paper. T. Basova acknowledges the research fund by the
Program of basic scientific research (Project number: V.44.4.3).
9
3
3
0 L. Alvarez, A. Righi, S. Rols, E. Anglaret, J.L. Sauvajol, E. Munoz,
W.K. Maser, A.M. Benito, M.T. Martinez, G.F. de La Fuente,
Physical Review B, 2001, 63, 153401; D. Huo, L. Yang, C. Hou,
H. Fa, X. Luo, Y. Lu, X. Zheng, J. Yang and L. Yang, Spectrochim.
Acta A, 2009, 74, 336.
1 S. M. Polyakov, T.V. Basova, M. Göksel, A. Şenocak,
E.Demirbaş, M. Durmuş, B. Kadem and A. Hassan, Synth. Met.,
Notes and references
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017, 227, 78.
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P. J. Reddy, Solar Power Generation: Technology, New
Concepts & Policy. CRC Press, 2012.
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