H. Cachet et al., N-SI SNO2 JUNCTIONS BASED ON MACROPOROUS SILICON FOR PHOTOCONVERSION/, Solar energy materials and solar cells, 46(2), 1997, pp. 101-114
For the first time it is demonstrated that a photovoltaic junction can
be formed by spraying a thin, transparent, conductive SnO2 layer onto
macroporous n-type silicon produced by photoelectrochemical etching.
With a macropore density of 10(7) cm(-2), and an average pore diameter
in the range 1-2 mu m, the cell reflectivity spectrum is flat and dro
ps to a few percent in the visible and near infrared spectral range. E
DX analysis and impedance measurements show that charge separation and
current collection occur in the upper part of the pores and in the in
terpore region, whereas the bottom of the pores only acts as a photon
absorber. The active junction area is found to be four times larger th
an with a mirror-polished substrate. A solar cell equipped with just a
front ring contact was realized, which attains a solar conversion eff
iciency of 10% under AM 1.5 conditions.