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New catalyst combines fuel cell, battery into one device

New catalyst combines fuel cell, battery into one device

Technology News |
By Jean-Pierre Joosting



Working in the Vijay Ramani lab at the McKelvey School of Engineering at Washington University in St. Louis, a team of researchers have found an excellent bifunctional catalyst for the oxygen electrode for regenerative fuel cells.

A single device that both generates fuel and oxidant from water and, when a switch is flipped, converts the fuel and oxygen into electricity and water, has a host of benefits for terrestrial, space and military applications. From low environmental impact to high energy density, developing efficient unitized regenerative fuel cells, or URFCs as they are called, has been in researchers’ sights for years now.

But to truly be efficient, an URFC needs bifunctional catalysts. This means, in electrolyzer mode, catalysts should facilitate the breakdown of water into hydrogen and oxygen, and, in fuel cell mode, facilitate their recombination into water.

The team of researchers found that a composite of platinum and a lead ruthenate pyrochlore made an excellent bifunctional catalyst for the oxygen electrode.

“Unlike the hydrogen electrode, wherein platinum is an effective bifunctional catalyst, it is very challenging to identify a suitable catalyst for the oxygen electrode due to the sluggish kinetics of oxygen reduction and oxygen evolution,” said Pralay Gayen, currently working at Intel, who was a postdoctoral research associate in Vijay Ramani’s lab at the McKelvey School of Engineering at Washington University in St. Louis and served as the paper’s first author.


Sulay Saha, a postdoctoral research associate in Ramani’s laboratory, and Gayen’s research was guided by first principles — taking into account the fundamental properties of different substances before heading to the lab to test potential catalysts.

Along with former undergraduate researcher and co-author Xinquan Liu, the team ultimately identified and developed Pt-Pyrochlore, a composite of platinum and a lead ruthenate pyrochlore, which yielded high bifunctionality.

The “bifunctionality index” is a measure of catalyst’s ability to facilitate both the forward and reverse direction of a reaction. “We want the index to be low,” said Kritika Sharma, a PhD engineering student. “Zero, ideally.” This new catalyst has a bifunctionality index of 0.56 volts — very low compared with other catalysts reported. When used in a URFC device developed by the laboratory, the catalyst enabled a round-trip energy efficiency (RTE) of 75% — the highest reported round-trip efficiency in this type of URFC.

With such high efficiency, the URFCs developed are well suited for applications such as submersibles, drones, spacecrafts and space stations, as well as for off-grid energy storage.

Paper: Proceedings of the National Academy of Sciences; High-performance AEM unitized regenerative fuel cell using Pt-pyrochlore as bifunctional oxygen electrocatalyst, https://dx.doi.org/10.1073/pnas.2107205118.

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