... respectively.
Solar Cells – New Aspects and Solutions
264
2.4 Flexible organic solar cells
Solar cells generally developed on rigid substrates like glass and suffer from heavy, fragile and
inflexible ... (DeCristofano, 2009)
Solar Cells – New Aspects and Solutions
242
continuous microporous layer (Figs. 8a and 11a, and condition c in Table 1)...
... Photovoltaic
Cells in the Thermal Treatment, IEEE Transaction on Electron Devices, Vol. 58, No. 3,
(March 2011), pp. 83 5 -84 2. ISSN 00 18- 9 383
Solar Cells – New Aspects and Solutions
42
Manorama, ... is higher than that of dye
sensitized solar cells (DSSC) using electrospun PVA nanofibers without Ag nanoparticles
48
.
Solar Cells – New Aspects and...
... interpenetrating network are
1 28
Solar Cells – New Aspects and Solutions
Solar Cells – New Aspects and Solutions
110
and acceptor phases within the heterojunction solar cell. Different nanostructuring ... donors and
NCs as electron acceptors in bulk-heterojunction hybrid solar cells.
Solar Cells – New Aspects and Solutions
102
Pyridine...
... structure for multiband solar cells, Phys. Rev. Lett. Vol. 106:
0 287 01-1-4.
2 28
Solar Cells – New Aspects and Solutions
Semiconductor Super lattice-Based Intermediate-Band Solar Cells 15
a)
b)
x
y
M
G
K
ultimate ... Superlattice-Based Intermediate-Band Solar Cells
Solar Cells – New Aspects and Solutions
234
In this study, Pt-nanoparticle modified multi...
... between
10
-8
and 10
-9
A/cm
2
at a reverse bias voltage of -3 V, indicates that the TCP/epi GaN
Solar Cells – New Aspects and Solutions
324
clean n-GaN (0001) surfaces and Pt, Au, and Ag, ... difference in the specific frequencies between the two
Solar Cells – New Aspects and Solutions
3 08
Aiming at developing multijunction solar cells bas...
... production.
Solar Cells – New Aspects and Solutions
342
tandem solar cells and moderately efficient organic based photovoltaic solar cells (Sean and
Ghassan, 2005; Currie et al., 20 08) . The ... concentrating and
Solar Cells – New Aspects and Solutions
3 48
Where Eg is optical band gap and the constant n is 1/2 for direct band gap materia...
... Vol. 18, No.9, (September 1 980 ),
pp. 286 9- 287 3, ISSN 1099-05 18
Lior, N. (20 08) . Energy resources and use: The present situation and possible paths to the
future. Energy, Vol.33, No.6, (June 20 08) , ...
properties. Polyfluorene, however, has a band gap of ~3.0eV, which limits its application in
Solar Cells – New Aspects and Solutions
4 78
M Zn(CH
2
COO) an...
... R
s
will induce the decrease of FF and J
SC
. By reducing R
s
, FF and J
SC
are increased and thus the
Solar Cells – New Aspects and Solutions
18
device performance is improved. At the ... spectra of P3HT:PCBM (about 80 nm thick and 2 08 nm thick).
Solar Cells – New Aspects and Solutions
8
If L is longer than drift lengths of electrons and...
... obtained for the solar cells grown by
MOCVD (Kurtz et al. 1999). Internal quantum values near to unit are reported for p-i-n
Solar Cells – New Aspects and Solutions
88
400 440 480 520
LO()+LA(X)
... grown GaAs,
and two GaAsN layers with different N content
2 4 6 8 10 12 14
10
17
10
18
0% N
0.2% N
0.5% N
Hall concentrations, cm
-3
1000/T, K
-1
Solar Cell...
... no
136
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Solar Cells – New Aspects and Solutions
1 58
size profile distributed broadly, and mean radius of nanogranules was estimated to be 1.9
nm (3.8nm ... processed
with 1, 8- octanedithiol as a processing additive, Journal of Applied Physics
104(3): 033706–033706.
144
Solar Cells – New Aspects and Solutions...