ANU Researchers Set New Solar-to-Hydrogen Efficiency Record

By July 20, 2020 2   min read  (401 words)

July 20, 2020 |

ANU Siva Karuturi

Researchers at The Australian National University (ANU) have achieved a new efficiency record for hydrogen cells that can convert water into hydrogen simply using sunlight

Lead author Dr Siva Karuturi says hydrogen has an important role to play in solving the intermittency of renewable energy sources.

“There are significant cost benefits to this solar-to-hydrogen approach as it eliminates the need for added infrastructure that’s necessary when hydrogen is produced using an electrolyser.”

Previous methods of converting water to hydrogen have had a low overall energy conversion efficiency but Dr Karuturi’s research has improved this.

“To produce hydrogen in the past, solar plants had to produce electricity which is then used to electrolyse water to produce hydrogen. This new method is more direct, making it more efficient,” he said.

The unique approach outlined in the ANU study also used inexpensive semiconductor materials and resulted in a 17.6 per cent solar-to-hydrogen efficiency.

This is nearing the efficiency of solar panels being installed on rooftops, which have an efficiency of around 20 per cent.

Dr Karuturi says that they are working towards reaching an efficiency of 20 per cent in the coming months, which will pave way for low-cost green hydrogen production.

The research team used a “tandem” light absorber structure- placing a perovskite cell on top of a specially-made Si electrode.

Co-author Dr Heping Shen, who develops perovskite cells, says with extraordinary optoelectronic properties, the perovskite materials offer great potential for low-cost, high-efficiency tandem devices with Si.

“Together with unprecedented progress in efficiency, the perovskite material has also undergone significant improvement for its stability, making it one of the most attractive candidates for the solar industry,” Dr Shen said.

This new method makes use of noble-metal catalysts such as platinum and Dr Karuturi says that they are working to replace them with cheap materials to further reduce costs in the future.

Another major outcome for the research is that Australia will more efficiently be able to export hydrogen.

Dr Karuturi noted that last year the Council of Australian Governments (COAG) Energy Council approved a national hydrogen strategy which aims to enable a hydrogen economy.

“This strategy is important to Australia and our hope is that this new, direct method of converting water to hydrogen can aid these efforts,” said Dr Karuturi.

The research has been published in Advanced Energy Materials.

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