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Robust and inexpensive catalysts for hydrogen production

Electrochemistry

Date:
April 10, 2018
Source:
Ruhr-University Bochum
Summary:
Scientists were able to observe the smallest details of hydrogen production with the synthetic mineral pentlandite. This makes it possible to develop strategies for the design of robust and cost-effective catalysts for hydrogen production.
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The working groups of Prof. Wolfgang Schuhmann and Dr. Ulf-Peter Apfel from the RUB and the team headed by Prof. Patrick R. Unwin from the University of Warwick report in the journal Angewandte Chemie of 09 March 2018.

Hydrogen gas is considered a possible future source of energy and can be produced from water using platinum catalysts and electricity. However, alternative catalysts made of cheaper and more readily available materials with equally high efficiency are barely known.

Electrodes without precious metals

There are a number of materials that, like platinum, are able to catalyse the reaction of water into hydrogen. "These include metal chalcogenides such as the mineral pentlandite, which is just as efficient as platinum and is also significantly more stable towards catalyst poisons such as sulphur," explains Ulf-Peter Apfel. Pentlandite consists of iron, nickel and sulphur. Its structure is similar to that of the catalytic centres of hydrogen-producing enzymes found in a variety of sources, including green algae.

A drop with a diameter of only a few hundred nanometres

In the current study, the researchers investigated the hydrogen production rates of artificially prepared crystalline surfaces of the mineral pentlandite in a drop of liquid with a diameter of a few hundred nanometres. They used scanning electrochemical cell microscopy for this purpose.

This enabled them to clarify how the structure and composition of the material influence the electrocatalytic properties of iron-nickel sulphide. Even the smallest changes in the ratio between iron and nickel by varying the synthesis conditions or the ageing of the material considerably changed the activity in the electrochemical hydrogen formation. "With these findings, we can now continue to work and develop strategies to improve many more robust and cheap catalysts," says Ulf-Peter Apfel.

Design principles for electrodes

The researchers also showed that scanning electrochemical cell microscopy makes it possible to link information on the structure, composition and electrochemical activity of the materials in a spatially resolved manner. The method thus makes it possible to design catalysts specifically and to produce highly active materials this way. "In future, this method will therefore play an important role in the search for electrocatalytically active, heterogeneous catalysts," says Wolfgang Schuhmann.


Story Source:

Materials provided by Ruhr-University Bochum. Note: Content may be edited for style and length.


Journal Reference:

  1. Cameron L. Bentley, Corina Andronescu, Mathias Smialkowski, Minkyung Kang, Tsvetan Tarnev, Bernd Marler, Patrick R. Unwin, Ulf-Peter Apfel, Wolfgang Schuhmann. Local Surface Structure and Composition Control the Hydrogen Evolution Reaction on Iron Nickel Sulfides. Angewandte Chemie International Edition, 2018; 57 (15): 4093 DOI: 10.1002/anie.201712679

Cite This Page:

Ruhr-University Bochum. "Robust and inexpensive catalysts for hydrogen production." ScienceDaily. ScienceDaily, 10 April 2018. <www.sciencedaily.com/releases/2018/04/180410103512.htm>.
Ruhr-University Bochum. (2018, April 10). Robust and inexpensive catalysts for hydrogen production. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2018/04/180410103512.htm
Ruhr-University Bochum. "Robust and inexpensive catalysts for hydrogen production." ScienceDaily. www.sciencedaily.com/releases/2018/04/180410103512.htm (accessed December 21, 2024).

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