Tuning the plasmonic absorption of metal reflectors by zinc oxide nano particles: Application in thin film solar cells

Palanchoke U, Kurz H, Noriega R, Arabi S, Jovanov V, Magnus P, Aftab H, Salleo A, Stiebig H, Knipp D (2014)
Nano Energy 6: 167-172.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Palanchoke, Ujwol; Kurz, Henning; Noriega, Rodrigo; Arabi, Sahar; Jovanov, Vladislav; Magnus, Philipp; Aftab, Hasan; Salleo, Alberto; Stiebig, HelmutUniBi; Knipp, Dietmar
Abstract / Bemerkung
The short circuit current and conversion efficiency of silicon thin film solar cells can be increased by efficient light trapping. The short circuit current is maximized if the metal back contact of the solar cells efficiently scatters and diffracts the reflected light, while optical (plasmonic) losses in the back contact are minimized. The investigations show that the optical losses in the back contact are highest if nano features are present at the dielectric/metal interface. However, large back contact features with dimensions comparable to the optical wavelength efficiently scatter and diffract the reflected light. In this study the morphology of the back contact was controlled by inserting zinc oxide nano particles. The influence of the nano particles on the quantum efficiency, short circuit current and conversion efficiency is studied.
Erscheinungsjahr
2014
Zeitschriftentitel
Nano Energy
Band
6
Seite(n)
167-172
ISSN
2211-2855
Page URI
https://pub.uni-bielefeld.de/record/2908224

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Palanchoke U, Kurz H, Noriega R, et al. Tuning the plasmonic absorption of metal reflectors by zinc oxide nano particles: Application in thin film solar cells. Nano Energy. 2014;6:167-172.
Palanchoke, U., Kurz, H., Noriega, R., Arabi, S., Jovanov, V., Magnus, P., Aftab, H., et al. (2014). Tuning the plasmonic absorption of metal reflectors by zinc oxide nano particles: Application in thin film solar cells. Nano Energy, 6, 167-172.
Palanchoke, Ujwol, Kurz, Henning, Noriega, Rodrigo, Arabi, Sahar, Jovanov, Vladislav, Magnus, Philipp, Aftab, Hasan, Salleo, Alberto, Stiebig, Helmut, and Knipp, Dietmar. 2014. “Tuning the plasmonic absorption of metal reflectors by zinc oxide nano particles: Application in thin film solar cells”. Nano Energy 6: 167-172.
Palanchoke, U., Kurz, H., Noriega, R., Arabi, S., Jovanov, V., Magnus, P., Aftab, H., Salleo, A., Stiebig, H., and Knipp, D. (2014). Tuning the plasmonic absorption of metal reflectors by zinc oxide nano particles: Application in thin film solar cells. Nano Energy 6, 167-172.
Palanchoke, U., et al., 2014. Tuning the plasmonic absorption of metal reflectors by zinc oxide nano particles: Application in thin film solar cells. Nano Energy, 6, p 167-172.
U. Palanchoke, et al., “Tuning the plasmonic absorption of metal reflectors by zinc oxide nano particles: Application in thin film solar cells”, Nano Energy, vol. 6, 2014, pp. 167-172.
Palanchoke, U., Kurz, H., Noriega, R., Arabi, S., Jovanov, V., Magnus, P., Aftab, H., Salleo, A., Stiebig, H., Knipp, D.: Tuning the plasmonic absorption of metal reflectors by zinc oxide nano particles: Application in thin film solar cells. Nano Energy. 6, 167-172 (2014).
Palanchoke, Ujwol, Kurz, Henning, Noriega, Rodrigo, Arabi, Sahar, Jovanov, Vladislav, Magnus, Philipp, Aftab, Hasan, Salleo, Alberto, Stiebig, Helmut, and Knipp, Dietmar. “Tuning the plasmonic absorption of metal reflectors by zinc oxide nano particles: Application in thin film solar cells”. Nano Energy 6 (2014): 167-172.
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