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Statements

Subject Item
n2:RIV%2F68407700%3A21340%2F03%3A04092631%21RIV%2F2004%2FMSM%2F213404%2FN
rdf:type
n6:Vysledek skos:Concept
dcterms:description
This paper addresses optical effects in small area thin film silicon p-i-n solar cells deposited on a glass/TCO substrate. An existing one-dimensional model was extended to three dimensions to include the effect of substrate glass thickness and lateral solar cell area. With its help we can model real laboratory cells where the cell dimensions are comparable to the glass thickness. For a quantitative evaluation we compare the external quantum efficiency of an infinitely large solar cell with small area cells. Here the modeling results show increasing differences with increasing glass thickness, decreasing cell area and improving light scattering properties of the TCO. This is explained by internal light trapping in the glass substrate, which causes loss or gain of light intensity absorbed in the cell area. Neglecting such effects can lead to about 11 % error in short circuit current density calculated from quantum efficiency measurements. This paper addresses optical effects in small area thin film silicon p-i-n solar cells deposited on a glass/TCO substrate. An existing one-dimensional model was extended to three dimensions to include the effect of substrate glass thickness and lateral solar cell area. With its help we can model real laboratory cells where the cell dimensions are comparable to the glass thickness. For a quantitative evaluation we compare the external quantum efficiency of an infinitely large solar cell with small area cells. Here the modeling results show increasing differences with increasing glass thickness, decreasing cell area and improving light scattering properties of the TCO. This is explained by internal light trapping in the glass substrate, which causes loss or gain of light intensity absorbed in the cell area. Neglecting such effects can lead to about 11 % error in short circuit current density calculated from quantum efficiency measurements.
dcterms:title
3-Dimensional Optical Model for Thin Film Silicon Solar Cells 3-Dimensional Optical Model for Thin Film Silicon Solar Cells
skos:prefLabel
3-Dimensional Optical Model for Thin Film Silicon Solar Cells 3-Dimensional Optical Model for Thin Film Silicon Solar Cells
skos:notation
RIV/68407700:21340/03:04092631!RIV/2004/MSM/213404/N
n5:strany
97 ; 97
n5:aktivita
n16:Z
n5:aktivity
Z(MSM 210000021)
n5:dodaniDat
n13:2004
n5:domaciTvurceVysledku
n15:4025326
n5:druhVysledku
n9:D
n5:duvernostUdaju
n17:S
n5:entitaPredkladatele
n10:predkladatel
n5:idSjednocenehoVysledku
636842
n5:idVysledku
RIV/68407700:21340/03:04092631
n5:jazykVysledku
n8:eng
n5:klicovaSlova
thin conductive oxide,thin film silicon solar cells, light trapping
n5:klicoveSlovo
n7:thin%20conductive%20oxide n7:thin%20film%20silicon%20solar%20cells n7:light%20trapping
n5:kontrolniKodProRIV
[F8D067327C0B]
n5:mistoKonaniAkce
Osaka
n5:mistoVydani
Osaka
n5:nazevZdroje
Abstract Book of the 3rd World Conference of Photovoltaic Energy Conversion
n5:obor
n11:BM
n5:pocetDomacichTvurcuVysledku
1
n5:pocetTvurcuVysledku
6
n5:rokUplatneniVysledku
n13:2003
n5:tvurceVysledku
Poruba, A. Muller, J. Reetz, W. Vaněček, M. Müllerová, Lenka Špringer, J.
n5:typAkce
n19:WRD
n5:zahajeniAkce
2003-05-11+02:00
n5:zamer
n12:MSM%20210000021
s:numberOfPages
1
n20:hasPublisher
ILE, Osaka University
n14:organizacniJednotka
21340