Geodesic
Active layers doped with rare-earth metals for increased efficiency solar cells
Problemy fiziki, matematiki i tehniki, no. 4 (2012), pp. 26-29.

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This paper presents the characteristics of photovoltaic structures Al-Ni/ZnO:Er/Si, obtained by magnetron sputtering, and structures Al-Ni/ZnO:Tb/Si, obtained by the combined method using electrochemical deposition and magnetron sputtering.
Keywords: sol-gel, ZnO, photoelectric characteristics, electrochemical deposition, magnetron sputtering. 
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     title = {Active layers doped with rare-earth metals for increased efficiency solar cells},
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V. V. Malyutina-Bronskaya; V. B. Zalesski; T. R. Leonova; А. М. Polikanin; V. A. Mudryy; A. V. Semchenko; V. V. Sidsky. Active layers doped with rare-earth metals for increased efficiency solar cells. Problemy fiziki, matematiki i tehniki, no. 4 (2012), pp. 26-29. http://geodesic.mathdoc.fr/item/PFMT_2012_4_a4/

[1] M. Green, Third Generation Photovoltaics, Springer, 2003

[2] T. Trupke, M. Green, P. P. Würfel, “Improving Solar Cell Efciencies by Up-Conversion of Sub-Band-Gap Light”, J. Appl. Phys., 92:7 (2002), 4117–4122 | DOI

[3] T. Trupke, M. Green, P. P. Würfel, “Improving solar cell efficiency by down — conversion of high-energy photons”, J. Appl. Phys., 92 (2002), 1668–1679 | DOI

[4] B. Jones et. al., “Nanocristalline Luminescence Solar Converters”, Photovoltaic Material, 3 (2004), 65–72

[5] J. Chen, J. X. Zhao, “Upconversion Nanomaterials: Synthesis, Mechanism, and Applications in Sensing”, Sensors, 12 (2012), 2414–2435 | DOI

[7] A. V. Kholodkov, K. M. Golant, L. D. Iskakova, “Osobennosti lyuministsentsii $\mathrm{Er}^{3+}$ v legirovannom galogenami amorfnom diokside kremniya”, Trudy instituta obschei fiziki im. A. M. Prokhorova, 64, 2008, 66–80

[8] V. V. Malyutina-Bronskaya, V. B. Zalesskii, T. R. Leonova, “Elektricheskie svoistva plenok oksida tsinka legirovannykh redkozemelnymi elementami”, Doklady BGUIR, 2011, no. 6, 39–43