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Put some sunshine in your engine



A chemist wants to use solar energy to produce hydrogen from water. His idea? To draw inspiration from the molecules that allow plants to grow and animals to breathe.

Generating electricity or hot water from the sun is a well-known idea. However, solar energy could also be used to turn water into hydrogen or turn carbon dioxide into synthetic methane. Thus, produce “solar fuels”.

This is difficult: hydrogen is mainly produced from methane in a reaction that emits CO2. Other processes use water, which is dissociated into hydrogen and oxygen using an electric current. Since the available electricity is partly generated from fossil fuels, this method indirectly emits carbon dioxide. As a result, hydrogen is not yet a clean fuel.

Molecules of Life

“Scientists have developed many materials to dissociate water into hydrogen from solar energy, but their efficiency is still too low or their cost too high,” notes Nicolas Boscher. “I think that a paradigm shift is needed and that entirely different approaches need to be tested”.

His inspiration comes from nature: the chemist wants to take advantage of a class of molecules crucial to life, porphyrins, which are involved in the breathing of living beings. They form the basis of haemoglobin, which transports oxygen in the blood, and chlorophyll, which enables plants to produce carbohydrates.

“These ring-shaped molecules are very versatile,” continues the researcher. “They are like Swiss Army knives for a chemist like me.”

The first stage of Nicolas Boscher’s project consists of creating porphyrin polymers and weaving them into a three-dimensional network. This extremely porous material allows water molecules to pass through. These molecules can then interact with the porphyrins. By absorbing sunlight, their ring produces an electron that dissociates water into its two components, hydrogen and oxygen.

06_Graphic-01 Boscher
06_Graphic-02 Boscher
Infographics by Ikonaut
Infographics by Ikonaut

Chemical synthesis in a vacuum

If the idea seems simple, implementing it is less so. Because porphyrins, insoluble in water, are difficult to handle by traditional chemistry based on reactions in liquids. The scientist uses a different type of process: he reacts the different components by mixing them in gaseous form at very low pressure.

“This technique, chemical vapour deposition, is typically used in the manufacture of electronic chips. I did my first research in this field, which allowed me to adapt these methods to work with organic components, including porphyrins.”

Towards a greener chemistry

The renewable production of hydrogen can also be used to produce synthetic methane and plastics, which generally come from the fossil fuel sector. This requires combining it with carbon atoms, obtained by extracting CO2 from the ambient air or by filtering the gases emitted in thermal power stations. This would represent a giant step towards green chemistry, which does not use fossil fuels either as a source of energy or as a raw material.

The European Research Council, set up by the EU in 2007, is the premiere European funding organisation for excellent frontier research. Every year, it selects and funds the very best, creative researchers of any nationality and age, to run projects based in Europe. The ERC offers four core grant schemes: Starting, Consolidator, Advanced and Synergy Grants. With its additional Proof of Concept grant scheme, the ERC helps grantees to bridge the gap between grantees’ pioneering research and early phases of its commercialisation.

More features in this series

The ERC series is written by Daniel Saraga. The purpose of this ERC series is to showcase the high quality of research in Luxembourg, and how it is also attracting prestigious international funding.

Nicolas Boscher © FNR / Rick Tonizzo