Categories: NewsSmart Energy

Fuel Cell Innovation by Korean Researchers

Research team of Ulsan National Institute of Science and Technology (UNIST), Georgia Institute of Technology, and Dong-Eui University developed a novel cathode material which has outstanding performance and robust reliability even at the intermediate temperature range.

This research was published in Scientific Reports on August 13. (Title: Highly Efficient and robust cathode materials for low-temperature solid fuel cells: PrBa0.5Sr0.5Co2-xFexO5+δ )

As high power density devices, fuel cells can convert chemical energy directly into electric power very efficiently and environmentally friendly. Solid oxide fuel cells (SOFCs), based on an oxide ion conducting electrolyte, have several advantages over other types of fuel cells, including relatively inexpensive material costs, low sensitivity to impurities in the fuel, and high overall efficiency.

To make SOFC technology more affordable, the operating temperature must be further reduced so that substantially less expensive materials may be used for the cell components. Also there will be more choices of materials for other components with lower operating temperature.

However, at the low operating temperature, the problem is that the efficiency drop by the cathode is especially dramatic than the one due to the anode and/or electrolyte. It means that the cathode, as a key component of SOFC, contributes the most to the polarization loss during intermediate temperature operation. As a result, the development of feasible low temperature SOFCs requires the generation of highly efficient cathode materials.

A UNIST research team tried to co-dope Sr and Fe and succeeded in yielding remarkable out-performance to present materials at lower operating temperature. The optimized composition has facilitated excellent oxygen reduction reaction and the novel structure has created pore channels that dramatically enhance oxygen ion diffusion and surface oxygen exchange while maintaining excellent compatibility and stability under operating conditions.

“The hardest part of this research was finding optimum composition of Sr and Fe for the best performance and robustness,” said Prof. Kim. “Previously various researches trying to dope Sr to perovskite structure had been made by many other groups. But none of them was successful for the better performance at the low operating temperature.”

The new material developed by the UNIST research team led by Prof. Guntae Kim, could be used at significantly low temperature SOFC with higher efficiency and solid reliability than the previously reported materials.

This new novel cathode material enables the fuel cell designers have more flexible choices on the materials of fuel cell components, which leads to the lower fuel cell cost and, finally, to the step closer to the highly efficient and reliable fuel cells.

Pimagazine Asia Admin

Recent Posts

Insuring Wind Turbines, What is the Risk?

Gallagher Re has shed light on the significant challenges insurers face when providing coverage for…

8 months ago

ARENA Start Feasibility Study in Western Australia

The Australian government will disburse AUD 1.7 million (USD 1.1m/EUR 1m) in grant funding to…

8 months ago

Asia moving away from Solar?

GlobalData’s latest report, ‘Asia Pacific Renewable Energy Policy Handbook 2024’ is among the latest region-specific…

8 months ago

Asia’s Energy Challenge 2024

The electrical generation market is facing a number of challenges, including the need to increase…

8 months ago

Powering Progress: Nuclear Energy’s Role in Asia’s Energy Landscape

Nuclear energy has emerged as a prominent player in Asia's energy landscape, offering a reliable…

1 year ago

Charting a Cleaner Path: Carbon Capture and Storage in Asia

The pursuit of a low-carbon future has gained significant momentum globally, and Asia stands tall…

1 year ago