ANU develops 26.4 per cent efficient cell using perovskites

Print Friendly, PDF & Email

Researchers at ANU have achieved 26.4% efficiency using a stacked configuration of silicon and perovskite solar cells.

share
Kylie Catchpole and The Duong of ANU's Research School of Engineering. Photo: ANU/Stuart Hay
Print Friendly, PDF & Email

PV Magazine

Researchers at the Australian National University (ANU) have achieved 26.4% efficiency using a stacked configuration of silicon and perovskite solar cells. The perovskite cell is semi-transparent and, according to ANU, could bring down the cost of generating solar power.

Kylie Catchpole and The Duong of ANU's Research School of Engineering. Photo: ANU/Stuart Hay
Kylie Catchpole and The Duong of ANU’s Research School of Engineering.
Photo: ANU/Stuart Hay

New developments in perovskite research are becoming a regular theme in solar. Companies, universities and institutes the world over seek innovative ways to convert the material’s high potential for efficiency into something commercially viable, which could be a big step forward for the industry.

Australia National University is the latest to bring its development to the public’s attention, having achieved a record breaking 26.4% efficiency through mechanically combining perovskite cells with up to 17.4% efficiency in a stacked configuration with silicon solar cells.

“Until now, efficiencies of this kind have only been achieved using high cost materials normally used on satellites,” said The Duong, who led the research team from ANU’s Research School of Engineering. “We are now a step closer to a low-cost alternative.”

Much of the research into perovskites is split between using the material in combination with silicon solar cells to boost efficiency, and creating solar cells entirely from perovskites. Earlier this week, a team from Ulsan Institute of Science and Technology in Korea (UNIST) announced the development of a processing method which can produce perovskite cells with 21.2% efficiency.

One of the main barriers to the commercialization of perovskites has been their stability, a challenge which is acknowledged by ANU Professor Kylie Catchpole. “This breakthrough opens the way to increasing the efficiency of silicon solar cells further, and in a cheap way,” says Catchpole. “The key challenge now is achieving the same stability as we have with silicon solar cells that can be put out on a roof for 20 years using perovskite.”

UNIST claim to have overcome this challenge, having produced a cell that retained 93% of its initial performance after 1,000 hours of light exposure.

While these developments are encouraging for the use of perovskite in the next generation of PV cells, it should be noted that many of the record breaking cells being produced in lab conditions are far smaller than production level solar cells – ANU’s latest cell measures 0.18cm². Australia’s University of New South Wales set the current record of 12% efficiency for a ‘full size’ 16cm² solar cell in December 2016.

Source: PV Magazine. Reproduced with permission.
Print Friendly, PDF & Email

2 Comments
  1. George Darroch 2 years ago

    This is good news.

    • Ron Horgan 2 years ago

      I imagine that in time, new developments like this could make solar power effective under low light conditions. Good news indeed to see new doors open.

Comments are closed.