GUWAHATI: Indian Institute of Technology Guwahati (IIT-Guwahati) researchers are developing novel materials that can use sunlight to split water into hydrogen and oxygen. These materials are much cheaper than the 'noble metals' currently used and could lead to cost-effective solar-powered hydrogen generators.
Worldwide efforts in developing clean energy have been propelled by ever-increasing need for energy and dwindling and environmentally damaging nature of fossil fuels. Since the discovery of photovoltaic effect by Becquerel in 1839, conversion of solar energy into electrical power or chemical fuel has captured the interest and imagination of scientists. Solar energy is considered the most promising of the clean and renewable energy sources known today. While the commonly known 'solar cells' convert light directly into electrical energy, there is another type of sunlight-powered energy conversion system called 'Photo Electro Chemical' (PEC) Cells that have elicited attention in recent times due to their direct production of fuels in combination of electrical energy.
PEC cells use solar energy to split simple and safe compounds such as water into hydrogen and oxygen, hydrogen being a high-energy fuel that can be stored and used as needed. These cells are therefore considered the 'Holy Grail' to a carbon-free hydrogen economy. This is the area of research for the team from the Department of Chemistry at IIT Guwahati led by Dr. Mohammad Qureshi (www.iitg.ac.in/mq). The team has reported their recent findings in the prestigious peer-reviewed journal of the American Chemical Society, Journal of Physical Chemistry Letters (https://doi.org/10.1021/acs.jpclett.1c02664). The paper has been co-authored by Prof. Mohammad Qureshi and Suhaib Alam.
Elaborating the importance of this research, Dr. Mohammad Qureshi, Professor, Department of Chemistry, IIT Guwahati, said, "Despite the promise, PEC cells are not yet a practical solution to the energy crisis because of the scientific bottlenecks such as the sluggishness of the water-oxidation process. Catalysts are used to activate the water-splitting process but these catalysts are expensive metals such as platinum, iridium and ruthenium, among others, which render the cells impractical."
The team at IIT Guwahati has developed non-noble metal catalysts that are as good as the expensive metals in splitting water in PEC cells. The researchers are now in the process of developing a prototype device to test their photoanode in practical PEC cells, stated a press release.