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Agriculture Farming Rural, Engineering

New ‘artificial leaf’ can create ammonia directly from pure sunlight

UNSW Sydney 3 mins read

Engineers from UNSW Sydney have converted a traditional silicon solar panel into a device that produces ammonia in a significantly more environmentally friendly way.

Ammonia is essential for producing fertilisers that support global agriculture and food production.

However, the traditional way of making it creates large amounts of greenhouse gas emissions, since fossil fuels are required for the hydrogen production and the energy to power the high-temperature process.

UNSW Scientia Professor Rose Amal, collaborating with Professor Xiaojing Hao, and their teams have now developed a way to generate ammonium ions from nitrate-containing wastewater using only a specially designed solar panel that works like an artificial leaf.

Their research has recently been published in a paper in the Journal of Energy and Environmental Science.

The process is known as photoelectrocatalytics (PEC) and utilises a nano-structured thin layer of copper and cobalt hydroxide on the panel that acts as a catalyst to assist the chemical reaction needed to produce ammonium nitrate from the wastewater.

The research team, which includes lead author of the paper Chen Han, and Dr Jian Pan (a DECRA Fellow) have built a 40cm2 artificial leaf system on the roof of Tyree Energy Technologies building at UNSW which has been able to produce ammonium ions that can satisfy 1.49m2 of cropland.

The results encourage development of the size of the system in pursuit of creating ammonia without the associated greenhouse gas emissions.

“Traditional ammonia production requires high temperatures – around 400 to 500 degrees Celsius – and high pressure, historically necessitating the use of fossil fuels,” says Prof. Amal from the School of Chemical Engineering.

“This system works at ambient conditions and just uses sunlight to produce ammonium from nitrate-containing wastewater, which is an important chemical used in fertiliser.

“We think this new technology could be implemented on a relatively small scale in agricultural locations to produce ammonium onsite, which would decentralise the production process and further reduce CO2 emissions that are associated with the transportation process.”

In a real leaf, photosynthesis is the way that plants use sunlight, water, and carbon dioxide to create oxygen and energy in the form of sugar. In this new photoelectrocatalytic process, the solar panel is acting like an artificial leaf to use sunlight, and nitrate-containing wastewater to create ammonium nitrate.

“We are combining photovoltaics’ expertise from UNSW's School of Photovoltaics & Renewable Energy Engineering, and our expertise in chemical engineering, to take nitrate waste and turn it into an important commodity in the form of ammonia,” said lead author Chen Han.

“We’ve developed a very efficient catalyst with some special nanostructures and incorporated that with a traditional silicon solar panel which results in a highly effective process.

“Our findings provide a clean, efficient and cost-effective solution for utilising solar energy and chemical wastes to produce ammonia and other value-added products.

“You do not need a high concentration of ammonia in fertiliser so we believe the amounts of ammonia we are producing using our system make it a viable application in the real world, although we definitely still have some ways to further improve it.”

The researchers hope that the generation of the ammonium from the wastewater will allow the processed water to be used to irrigate crops and further help them to grow.

“It’s important to acknowledge that the wastewater we convert isn’t coming directly from municipal waste or runoff – it still needs to be processed first to filter out the organic matters and particulates,” said Prof. Amal. 

“But we are hopeful that once we have generated ammonium from the nitrate wastewater, the treated water can then be put into irrigation.”

Prof. Amal is keen for further collaboration and involvement with potential industry partners to further develop the process into a fully viable commercial system.

“Industry partners would help us scale up this device, and we definitely would like to utilise a full-scale, traditionally sized solar panel for our application,” she said. 

“This is important for helping us reach our emissions targets of 2030 and 2040, and ultimately achieving Net Zero by 2050. We want to produce ammonia in a cleaner and greener way that minimises CO2 emissions.”


Key Facts:

Researchers at UNSW Sydney have developed a zero emissions system using a solar panel that turns nitrate wastewater into ammonium nitrate for use in fertilisation.


Contact details:

Neil Martin, News & Content Coordinator, UNSW Engineering.

Email: n.martin@unsw.edu.au

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