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Inverted polymer solar cell

Novel Device Architectures 11.4.1 Inverted Polymer Solar Cells... [Pg.341]

Dupont, S.R., OUver, M., Krebs, F.C., Dauskardt, R.H., 2012. Interlayer adhesion in roll-to-roU processed flexible inverted polymer solar cells. Sol Energy Mater. Sol. Cells 97,171-175. [Pg.99]

Y. Sun, et al. Inverted polymer solar cells integrated with a low-temperature-annealed sol-gel-derived ZnO film as an electron transport layer. Advanced Materials, 2011. 23 p. 1679-1683. [Pg.331]

Tao, C. et al. (2009) Role of tungsten oxide in inverted polymer solar cells. [Pg.360]

Zhou N, Guo X, Ortiz RP, Li S, Zhang S, Chang RPH, Facchetti A, Marks TJ (2012) Bithiophene imide and benzodithiophene copolymers for efficient inverted polymer solar cells. Adv Mater 24 2242-2248... [Pg.120]

Cheng Y-J, Hsieh C-H, He Y, Hsu C-S, Li Y (2010) Combination of indene-C60 bis-adduct and cross-linked fullerene interlayer leading to highly efficient inverted polymer solar cells. JAm Chem Soc 132 17381-17383. doi 10.1021/jal08259n... [Pg.158]

S. H. Liao, H. J. Jhuo, Y. S. Cheng and S. A. Chen, Fullerene Derivative-Doped Zinc Oxide Nanofilm as the Cathode of Inverted Polymer Solar Cells with Low-Bandgap Polymer (PTB7-Th) for High Performance, Adv. Mater., 2013, 25(34), 4766-4771. [Pg.39]

M. J. Tan, S. Zhong, J. Li, Z. K. Chen and W. Chen, Air-Stable Efficient Inverted Polymer Solar Cells Using Solution-Processed Nanocrystalline ZnO Interfaeial Layer, ACS Appl. Mater. Interfaces, 2013, 5, 4696-4701. [Pg.263]

Y. M. Sun, J. H. Seo, C. J. Takacs, J. Seifter and A. J. Heeger, Inverted Polymer Solar Cells Integrated with a Low-Temperature-Annealed Sol-Gel-Derived ZnO Film as an Electron Transport Layer, Adv. Mater., 2011, 23, 1679-1683. [Pg.264]

S. Y. Shao, K. B. Zheng, T. Pullerits and F. L. Zhang, Enhanced Performance of Inverted Polymer Solar Cells by Using Poly(ethylene oxide)-Modified ZnO as an Electron Transport Layer, ACS Mater. Interfaces, 2012, 5, 380-385. [Pg.264]

Y. W. Chen, Z. H. Hu, Z. M. Zhong, W. Shi, J. B. Peng, J. Wang and Y. Cao, Aqueous Solution Processed, Ultrathin ZnO Film with Low Conversion Temperature as the Electron Transport Layer in the Inverted Polymer Solar Cells,/. Phys. Chem. C, 2014,118, 21819-21825. [Pg.264]

R. X. Peng, F. Yang, X. H. Ouyang, Y. Liu, Y. S. Kim and Z. Y. Ge, Enhanced photovoltaic performance of inverted polymer solar cells by tuning the structures of titanium dioxide. Thin Solid Films, 2013, 545, 424-428. [Pg.264]

L. Sun, W. F. Shen, W. C. Chen, X. C. Bao, N. Wang, X. W. Dou, L. L. Han and S. G. Wen, Simple solution-processed titanium oxide electron transport layer for efficient inverted polymer solar cells. Thin Solid Films, 2014, 573,134-139. [Pg.264]

A. Barbot, B. Lucas, C. Di Bin, B. Rader and M. Aldissi, Optimized inverted polymer solar cells ineorporating Cs2C03-doped Cgo as electron transport layer, Appt Phys. Lett., 2013,102,193305. [Pg.265]

H. H. Liao, L. M. Chen, Z. Xu, G. Li and Y. Yang, Highly efficient inverted polymer solar cell by low temperature annealing of CS2CO3 interlayer, Appl. Phys. Lett., 2008, 92, 173303. [Pg.265]

K. Hamada, N. Murakami, T. Tsubota and T. Ohno, Solution-processed amorphous niobium oxide as a novel electron collection layer for inverted polymer solar cells, Chem. Phys. Lett, 2013,586, 81-84. [Pg.266]

D. Angmo, J. Sweelssen, R. Andriessen, Y. Galagan and F. C. Krebs, Inkjet Printing of Baek Electrodes for Inverted Polymer Solar Cells, Adv. Energy Mater., 2013,3,1230-1237. [Pg.410]

See other pages where Inverted polymer solar cell is mentioned: [Pg.319]    [Pg.341]    [Pg.341]    [Pg.327]    [Pg.352]    [Pg.359]    [Pg.360]    [Pg.41]    [Pg.263]    [Pg.265]    [Pg.265]    [Pg.265]    [Pg.266]    [Pg.266]    [Pg.268]    [Pg.139]    [Pg.27]    [Pg.249]    [Pg.249]   


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