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Organic bulk heterojunction photovoltaics

J. Li, M. Kastler, W. Pisula, J.W.F. Robertson, D. Wasserfallen, A. Clive, G. Grimsdale, J. Wu, K. Mtillen, Organic bulk-heterojunction photovoltaics based on alkyl substituted discotics. Adv. Funct. Mater. 17, 2528-2533 (2007)... [Pg.278]

Ishikawa, T., M. Nakamura, K. Fujita, and T. Tsutsui. 2004. Preparation of organic bulk heterojunction photovoltaic cells hy evaporative spray deposition from ultradilute solution. Appl Phys Lett 84 2424. [Pg.1453]

JG.D. Spyropoulos, M.M. Stylianakis, E. Stratakis, E. Kymakis, Organic bulk heterojunctions photovoltaic devices with surfactant-free Au nanoparticles embedded in the active layer, Appl. Phys. Lett. 100 (2012) 213904 (1) - 213904 (5). [Pg.144]

Peumans, P. Uchida, S. Forrest, S. R. 2003. Efficient bulk heterojunction photovoltaic cells using small-molecular-weight organic thin films. Nature 425 158-162. [Pg.154]

Waldauf C, Scharber MC, Schilinsky P, Hauch JA, Brabec CJ (2006) Physics of organic bulk heterojunction devices for photovoltaic applications. J Appl Phys 99 104503... [Pg.76]

Gebeyehu, D., Maennig, B., Drechsel, J., Leo, K., and Pfeiffer, M. 2003. Bulk-heterojunction photovoltaic devices based on donor-acceptor organic small molecule blends. Solar Energy Materials and Solar Cells 79 (l) 81-92. [Pg.389]

O. Douheret, A. Swinnen, S. Bertho, I. Haeldermans, J. D Haen, M. D Olieslaeger, D. Vanderzande and J. V. Manca, High-Resolution Morphological and Electrical Characterization of Organic Bulk Heterojunction Solar Cells by Scanning Probe Microscopy , Prog. Photovoltaics, 2007,15,713. [Pg.45]

White, M. S. Olson, D. C. Shaheen, S. E. Kopidakis, N. Ginley, D. S. 2006. Inverted bulk-heterojunction organic photovoltaic device using a solution-derived ZnO underlayer. Appl. Phys. Lett. 89 143517/143511-143517/143513. [Pg.466]

Giridharagopal R, Ginger DS (2010) Characterizing morphology in bulk heterojunction organic photovoltaic systems. J Phys Chem Lett 1 1160... [Pg.206]

Nowadays the best performing organic photovoltaic cell is represented by a bulk heterojunction (BHJ) solar cell based on the polymer poly(3-hexylthiophene) (P3HT) and the fullerene derivative [6, 6]-phenyl-C61-butyric acid methyl ester (PCBM), with reproducible efficiencies approaching 5% [262,263], However, a serious drawback for the preparation of efficient organic photovoltaic cells is represented by the low optical absorbance in the red/near-infrared region of the lightharvesting component(s), as well as their low extinction coefflcient(s). [Pg.34]

Figure 1.5 Typical organic photovoltaic cell architectures, (a) Bilayer cell (b) bulk heterojunction cell. Figure 1.5 Typical organic photovoltaic cell architectures, (a) Bilayer cell (b) bulk heterojunction cell.

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Bulk heterojunction

Bulk heterojunctions

Bulk-heterojunction photovoltaic

Heterojunction

Organic photovoltaic

Organic photovoltaics

Photovoltaic

Photovoltaics

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