TY - JOUR
T1 - Luminescent Solar Concentrators - a low cost photovoltaics alternative
AU - van Sark, W. G. J. H. M.
N1 - 2nd European Energy Conference
Maastricht, The Netherlands, April 17–20, 2012
A. McEvoy (Ed.)
PY - 2012
Y1 - 2012
N2 - Luminescent solar concentrators (LSCs) are being developed as a
potentially low cost-per-Wp photovoltaic device, suited for applications
especially in the built environment. LSCs generally consist of
transparent polymer sheets doped with luminescent species, either
organic dye molecules or semiconductor nanocrystals. Direct and diffuse
incident sunlight is absorbed by the luminescent species and emitted at
redshifted wavelengths with high quantum efficiency. Optimum design
ensures that a large fraction of emitted light is trapped in the sheet,
which travels to the edges where it can be collected by one or more
mono- or bifacial solar cells, with minimum losses due to absorption in
the sheet and re-absorption by the luminescent species. Today's record
efficieny is 7%, however, 10-15% is within reach. Optimized luminescent
solar concentrators potentially offer lower cost per unit of power
compared to conventional solar cells. Moreover, LSCs have an increased
conversion efficiency for overcast and cloudy sky conditions, having a
large fraction of diffuse irradiation, which is blueshifted compared to
clear sky conditions. As diffuse irradiation conditions are omnipresent
throughout mid- and northern-European countries, annual performance of
LSCs is expected to be better in terms of kWh/Wp compared to
conventional PV.
AB - Luminescent solar concentrators (LSCs) are being developed as a
potentially low cost-per-Wp photovoltaic device, suited for applications
especially in the built environment. LSCs generally consist of
transparent polymer sheets doped with luminescent species, either
organic dye molecules or semiconductor nanocrystals. Direct and diffuse
incident sunlight is absorbed by the luminescent species and emitted at
redshifted wavelengths with high quantum efficiency. Optimum design
ensures that a large fraction of emitted light is trapped in the sheet,
which travels to the edges where it can be collected by one or more
mono- or bifacial solar cells, with minimum losses due to absorption in
the sheet and re-absorption by the luminescent species. Today's record
efficieny is 7%, however, 10-15% is within reach. Optimized luminescent
solar concentrators potentially offer lower cost per unit of power
compared to conventional solar cells. Moreover, LSCs have an increased
conversion efficiency for overcast and cloudy sky conditions, having a
large fraction of diffuse irradiation, which is blueshifted compared to
clear sky conditions. As diffuse irradiation conditions are omnipresent
throughout mid- and northern-European countries, annual performance of
LSCs is expected to be better in terms of kWh/Wp compared to
conventional PV.
U2 - 10.1051/epjconf/20123302003
DO - 10.1051/epjconf/20123302003
M3 - Article
SN - 2101-6275
VL - 33
JO - EPJ Web of Conferences
JF - EPJ Web of Conferences
M1 - 02003
ER -