Changing the Face of Solar Cells With Nanotechnology

QUT Science & Engineering
Feb 7 · 3 min read

Associate Professor Ziqi Sun, materials scientist at the Queensland University of Technology, wants to change the way we look at solar energy production. He is part of an international team that has developed a new solar cell that’s more efficient, cheaper and safer to produce than silicon.

Commercial multicrystalline silicon solar cells have an efficiency conversion of 14–19 per cent. However, silicon is expensive, and the refining process is highly toxic.

“Titanium dioxide (TiO₂) is an alternative that’s environmentally friendly and safer to produce,” Professor Sun said. “It’s also abundant in the earth’s crust — there are lots of advantages compared to silicon.”

Professor Sun and his team have rethought the structure of quantum dot (QD) photovoltaic solar cells made from TiO₂ to maximise energy output. The resulting prototype has surpassed the efficiency of silicon solar cells.

Dr Ziqi Sun is changing the way we look at photovoltaic solar devices. Image: QUT Media

What is a quantum dot?

“Quantum dots are a type of solar cell: a solar conversion device” Professor Sun explained. “It’s a small particle, only two nanometres. It captures photons and passes them through a layer of TiO₂ nanocrystals, which generates an electrical current.”

Standard QD photovoltaic devices are not as efficient as silicon solar cells, reaching only 8–11 per cent efficiency in the lab.

“This type of solar cell is not on the market yet because its efficiency is too low. But it would be much cheaper if we can make it work,” Professor Sun said.

A new approach to QD devices

In standard QD photovoltaic devices, photons are trapped by the QDs, stimulating the electrons. These electrons then pass through a layer of TiO₂ nanocrystals to create an electrical current. However, only some of the electrons make it through — many become trapped or ‘lost’ in the tiny spaces, or interfaces, between the nanocrystals in a process called interface trapping.

“If we can remove this disordered interface, we can improve efficiency,” Professor Sun said.

“Our nanowire design eliminates the interface inside the TiO₂ band, as it’s just a single layer of QD-coated TiO₂.

“This means that more of the electrons can contribute to generating a more powerful electric current. We recorded 24 per cent efficiency from the device.”

That 24 per cent efficiency is much closer to the theoretical 33 per cent conversion efficiency of QD sensitised solar cells. The device they’ve designed has almost tripled the energy output from standard QD photovoltaic devices.

Research team member Hui Dong assembled the nanowire crystal in China where he could access an advanced transmission electron microscope that was sensitive enough to test and observe the technology.

“Hui was a visiting student at my lab here at QUT in 2016, and I mentored him for six months,” Professor Sun said, who is a known expert in nanocrystal technology. “This is collaborative work, and our team has been working on it for more than four years.”

The bigger picture

The research will lead to cleaner, more efficient ways of producing solar power. Professor Sun hopes this will in turn contribute to less reliance on fossil fuels, and cheaper solar power.

“It’s all part of our ongoing research to optimise the harvest and conversion of solar energy,” Professor Sun said.

“This is a much more effective use for solar cells. This principle we’ve developed can now be expanded on to fabricate more efficient solar panels.”

More information

Professor Ziqi Sun is a chief investigator at the QUT Centre for Materials Science.

Read the journal article, published in Nature.

See more science research at the Queensland University of Technology.


Learning and Big Solutions (LABS) from QUT Science and Engineering Faculty

QUT Science & Engineering

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Science, technology, engineering & mathematics (STEM) news, research, insights and events from QUT Science and Engineering Faculty. #qutstem



Learning and Big Solutions (LABS) from QUT Science and Engineering Faculty

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