posted on 2018-12-10, 00:00authored byVictor Shokhen, Yulia Kostikov, Ignacio Borge-Durán, Yelena Gershinsky, Ilya Grinberg, Gilbert D. Nessim, David Zitoun
One of the bottlenecks
toward the successful implementation of alternative energies is the
lack of methods for sustainable generation of hydrogen fuel as an
energy carrier. Given that water will be at the very least an important
component of the hydrogen production feedstock, sustainable catalysts
are needed for the electrochemical generation of hydrogen from water.
Herein, we report on the electrochemical activation of a silver-based
catalyst for the efficient hydrogen evolution reaction (HER) in acidic
conditions at high current densities. After activation, the catalyst
is chemically and electrochemically stable over days. The starting
material, silver sulfide, is synthesized by a simple and scalable
chemical vapor deposition process. Upon electrochemical activation,
the pristine material is converted to mesoporous silver coated with
a silver oxo-sulfide layer which is highly active toward HER. Detailed
microscopy and spectroscopy demonstrate the formation of both hydroxyl
and sulfoxide groups on the surface of the catalyst. Interestingly,
the density functional theory calculations suggest that only in the
presence of these hydroxyl groups will sulfur atoms exhibit high catalytic
activity with a hydrogen binding energy of −0.35 eV.