Australian researchers turn CO2 into electricity

Two male researchers in lab coats with their nanogenerator (CO2 electricity)
Professor Xiwang Zhang and Dr Zhuyuan Wang

University of Queensland researchers have built a generator that absorbs carbon dioxide (CO2) to make electricity.

Dr Zhuyuan Wang from UQโ€™s Dow Centre for Sustainable Engineering Innovation says the small, proof-of-concept nanogenerator is carbon negative because it consumes the greenhouse gas.

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โ€œThis nanogenerator is made of two components: a polyamine gel that is already used by industry to absorb CO2 and a skeleton a few atoms thick of boron nitrate that generates positive and negative ions,โ€ Dr Wang said.

โ€œWeโ€™ve worked out how to make the positive ions much larger than the negative ions and because the different sizes move at different speeds, they generate a diffusion current which can be amplified into electricity to power light bulbs or any electronic device.

โ€œIn nature and in the human body, ion transportation is the most efficient energy conversionโ€”more efficient than electron transportation which is used in the power network.โ€

The two components were embedded in a hydrogel which is 90% water, cut into 4cm discs and small rectangles and then tested in a sealed box pumped full of CO2.

โ€œWhen we saw electrical signals coming out, I was very excited but worried Iโ€™d made a mistake,โ€ Dr Wang said.

Graphic image showing how a nanogenerator uses carbon dioxide to generate electricity
The UQ-developed proof of concept technology absorbs CO2 and generates electricity

โ€œI double-checked everything, and it was working correctly so I started dreaming about changing the world using this technology.

โ€œThis technology goes further than being carbon neutralโ€”it consumes CO2 as it generates energy.

โ€œAt present we can harvest around 1% of the total energy carried intrinsically by gas CO2 but like other technologies, we will now work on improving efficiency and reducing cost.โ€

Dow Centre director Professor Xiwang Zhang said following the success of the laboratory tests, there are two potential applications for the nanogenerator in the future.

โ€œWe could make a slightly bigger device that is portable to generate electricity to power a mobile phone or a laptop computer using CO2 from the atmosphere,โ€ Professor Zhang said.

โ€œA second application on a much larger scale, would integrate this technology with an industrial CO2 capture process to harvest electricity.โ€

The development of the nanogenerator will continue through GETCO2, the ARC Centre of Excellence for Green Electrochemical Transformation of Carbon Dioxide which is led by UQโ€™s School of Chemical Engineering with Professor Zhang as director.

โ€œWe want to realise the value in a problematic greenhouse gas and to change the perception of CO2,โ€ Professor Zhang said.

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โ€œUntil now CO2 has been seen as a problem to be solved but it can be a resource for the future.โ€

The research has been published in Nature Communications.

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