Carbon nanotube-based hybrid hole-transporting material and selective contact for high efficiency perovskite solar cells

Aitola K, Sveinbjörnsson K, Correa-Baena J-P, Kaskela A, Abate A, Tian Y, Johansson EMJ, Grätzel M, Kauppinen EI, Hagfeldt A, Boschloo G (2016)
Energy & Environmental Science 9(2): 461-466.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Aitola, Kerttu; Sveinbjörnsson, Kári; Correa-Baena, Juan-Pablo; Kaskela, Antti; Abate, AntonioUniBi ; Tian, Ying; Johansson, Erik M. J.; Grätzel, Michael; Kauppinen, Esko I.; Hagfeldt, Anders; Boschloo, Gerrit
Abstract / Bemerkung
We demonstrate a high efficiency perovskite solar cell with a hybrid hole-transporting material-counter electrode based on a thin single-walled carbon nanotube (SWCNT) film and a drop-cast 2,2,7,-7-tetrakis(N,N-di-p-methoxyphenylamine)-9,9′-spirobifluorene (Spiro-OMeTAD) hole-transporting material (HTM). The average efficiency of the solar cells was 13.6%, with the record cell yielding 15.5% efficiency. The efficiency of the reference solar cells with spin-coated Spiro-OMeTAD hole-transporting materials (HTMs) and an evaporated gold counter electrode was 17.7% (record 18.8%), that of the cells with only a SWCNT counter electrode (CE) without additional HTM was 9.1% (record 11%) and that of the cells with gold deposited directly on the perovskite layer was 5% (record 6.3%). Our results show that it is possible to manufacture high efficiency perovskite solar cells with thin film (thickness less than 1 μm) completely carbon-based HTM-CEs using industrially upscalable manufacturing methods, such as press-transferred CEs and drop-cast HTMs.
Erscheinungsjahr
2016
Zeitschriftentitel
Energy & Environmental Science
Band
9
Ausgabe
2
Seite(n)
461-466
ISSN
1754-5692
eISSN
1754-5706
Page URI
https://pub.uni-bielefeld.de/record/2978866

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Aitola K, Sveinbjörnsson K, Correa-Baena J-P, et al. Carbon nanotube-based hybrid hole-transporting material and selective contact for high efficiency perovskite solar cells. Energy & Environmental Science. 2016;9(2):461-466.
Aitola, K., Sveinbjörnsson, K., Correa-Baena, J. - P., Kaskela, A., Abate, A., Tian, Y., Johansson, E. M. J., et al. (2016). Carbon nanotube-based hybrid hole-transporting material and selective contact for high efficiency perovskite solar cells. Energy & Environmental Science, 9(2), 461-466. https://doi.org/10.1039/C5EE03394B
Aitola, Kerttu, Sveinbjörnsson, Kári, Correa-Baena, Juan-Pablo, Kaskela, Antti, Abate, Antonio, Tian, Ying, Johansson, Erik M. J., et al. 2016. “Carbon nanotube-based hybrid hole-transporting material and selective contact for high efficiency perovskite solar cells”. Energy & Environmental Science 9 (2): 461-466.
Aitola, K., Sveinbjörnsson, K., Correa-Baena, J. - P., Kaskela, A., Abate, A., Tian, Y., Johansson, E. M. J., Grätzel, M., Kauppinen, E. I., Hagfeldt, A., et al. (2016). Carbon nanotube-based hybrid hole-transporting material and selective contact for high efficiency perovskite solar cells. Energy & Environmental Science 9, 461-466.
Aitola, K., et al., 2016. Carbon nanotube-based hybrid hole-transporting material and selective contact for high efficiency perovskite solar cells. Energy & Environmental Science, 9(2), p 461-466.
K. Aitola, et al., “Carbon nanotube-based hybrid hole-transporting material and selective contact for high efficiency perovskite solar cells”, Energy & Environmental Science, vol. 9, 2016, pp. 461-466.
Aitola, K., Sveinbjörnsson, K., Correa-Baena, J.-P., Kaskela, A., Abate, A., Tian, Y., Johansson, E.M.J., Grätzel, M., Kauppinen, E.I., Hagfeldt, A., Boschloo, G.: Carbon nanotube-based hybrid hole-transporting material and selective contact for high efficiency perovskite solar cells. Energy & Environmental Science. 9, 461-466 (2016).
Aitola, Kerttu, Sveinbjörnsson, Kári, Correa-Baena, Juan-Pablo, Kaskela, Antti, Abate, Antonio, Tian, Ying, Johansson, Erik M. J., Grätzel, Michael, Kauppinen, Esko I., Hagfeldt, Anders, and Boschloo, Gerrit. “Carbon nanotube-based hybrid hole-transporting material and selective contact for high efficiency perovskite solar cells”. Energy & Environmental Science 9.2 (2016): 461-466.
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