Covering effect of conductive glass: a facile route to tailor the grain growth of hybrid perovskites for highly efficient solar cells

Shen D, Mao H, Li Y, Abate A, Wei M (2018)
Journal of Materials Chemistry A 6(41): 20289-20296.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Shen, Deli; Mao, Haijuan; Li, Yafeng; Abate, AntonioUniBi ; Wei, Mingdeng
Abstract / Bemerkung
Effective control of the perovskite crystallinity, homogeneity and surface morphology is very important for state-of-the-art perovskite solar cells to retard the charge recombination at the grain boundaries. In this work, we develop a facile approach to promote the growth of high quality perovskite films that features a conductive glass-assisted annealing route. Such a novel annealing route not only confines the evaporation of the residual solvent effectively to gain high-crystallinity and micrometer-sized grains of CH3NH3PbI3 films, but also decreases the number of non-radiative recombination sites and facilitates charge transportation in the microstructural perovskite films dramatically compared with those obtained through the conventional annealing route, resulting in a remarkably improved power conversion efficiency along with an inconspicuous hysteresis. The best performing cell exhibits a PCE boosted to 18.08% compared with 16.18% achieved in the control one. And the optimized 1 cm2 device based on the reported method shows a satisfactory efficiency of 15.77%.
Erscheinungsjahr
2018
Zeitschriftentitel
Journal of Materials Chemistry A
Band
6
Ausgabe
41
Seite(n)
20289-20296
ISSN
2050-7488
eISSN
2050-7496
Page URI
https://pub.uni-bielefeld.de/record/2978846

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Shen D, Mao H, Li Y, Abate A, Wei M. Covering effect of conductive glass: a facile route to tailor the grain growth of hybrid perovskites for highly efficient solar cells. Journal of Materials Chemistry A. 2018;6(41):20289-20296.
Shen, D., Mao, H., Li, Y., Abate, A., & Wei, M. (2018). Covering effect of conductive glass: a facile route to tailor the grain growth of hybrid perovskites for highly efficient solar cells. Journal of Materials Chemistry A, 6(41), 20289-20296. https://doi.org/10.1039/C8TA07043A
Shen, Deli, Mao, Haijuan, Li, Yafeng, Abate, Antonio, and Wei, Mingdeng. 2018. “Covering effect of conductive glass: a facile route to tailor the grain growth of hybrid perovskites for highly efficient solar cells”. Journal of Materials Chemistry A 6 (41): 20289-20296.
Shen, D., Mao, H., Li, Y., Abate, A., and Wei, M. (2018). Covering effect of conductive glass: a facile route to tailor the grain growth of hybrid perovskites for highly efficient solar cells. Journal of Materials Chemistry A 6, 20289-20296.
Shen, D., et al., 2018. Covering effect of conductive glass: a facile route to tailor the grain growth of hybrid perovskites for highly efficient solar cells. Journal of Materials Chemistry A, 6(41), p 20289-20296.
D. Shen, et al., “Covering effect of conductive glass: a facile route to tailor the grain growth of hybrid perovskites for highly efficient solar cells”, Journal of Materials Chemistry A, vol. 6, 2018, pp. 20289-20296.
Shen, D., Mao, H., Li, Y., Abate, A., Wei, M.: Covering effect of conductive glass: a facile route to tailor the grain growth of hybrid perovskites for highly efficient solar cells. Journal of Materials Chemistry A. 6, 20289-20296 (2018).
Shen, Deli, Mao, Haijuan, Li, Yafeng, Abate, Antonio, and Wei, Mingdeng. “Covering effect of conductive glass: a facile route to tailor the grain growth of hybrid perovskites for highly efficient solar cells”. Journal of Materials Chemistry A 6.41 (2018): 20289-20296.
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