Published in
Elsevier, Chemical Physics Letters, (638), p. 25-30, 2015
DOI: 10.1016/j.cplett.2015.08.018
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Solar water splitting with earth-abundant materials using amorphous silicon photocathodes and Al/Ni contacts as hydrogen evolution catalyst
,
Vladimir Smirnov,
Jan-Philipp Becker ,
Uwe Rau,
Jürgen Ziegler,
Florent Yang,
Bernhard Kaiser ,
Wolfram Jaegermann,
Sascha Hoch,
Matthias Blug,
Friedhelm Finger
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Abstract
An all earth-abundant and precious metal-free photocathode based on a low-temperature fabricated amorphous silicon tandem junction is demonstrated to be an efficient device for solar water splitting. With a particular designed Al/Ni layer stack as photocathode/electrolyte contact an onset potential for cathodic photocurrent of 1.7 V vs. RHE and a saturation photocurrent density of 7.2 mA/cm2 were achieved. For a high-cost alternative with a Ag/Pt layer stack an even higher photocathode performance is demonstrated. Above all we present an approach for a dedicated photovoltaic and electrochemical development for solar water splitting.