Chill out: Advanced solar tech runs cooler and lasts longer

solar cell
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Australian photovoltaics researchers have made a 'cool' discovery: Singlet fission and tandem solar cells—two innovative ways to generate solar power more efficiently—also help to lower operating temperatures and keep devices running for longer.

Tandem cells can be made from a combination of silicon—the most commonly used photovoltaics material—and new compounds like , which can have a larger bandgap than silicon and help the device to capture more of the solar spectrum for .

Singlet fission, meanwhile, is a technique that produces twice the electronic charge carriers than normal for each photon of light that's absorbed. Tetracene is used in these devices to transfer the energy generated by singlet fission into silicon.

Scientists and engineers around the world are working on the best way to incorporate tandem cells and singlet fission processes into commercially viable devices that can take over from conventional, single junction silicon commonly found on rooftops and in large-scale arrays.

Now, work conducted by the School of Photovoltaic and Renewable Energy Engineering and the ARC Centre of Excellence in Exciton Science, both based at UNSW in Sydney, has highlighted some key advantages to both tandem cells and singlet fission.

The researchers showed that both silicon/perovskite tandem cells and tetracene-based singlet fission cells will run at lower temperatures than conventional silicon devices. This will reduce the impact of damage from heat on the devices, extending their lifespan and lowering the cost of the energy they produce.

For example, a 5-10°C reduction in module operating temperature corresponds to a 2%-4% gain in annual energy production. And the lifetime of devices is generally found to double for every 10°C reduction in temperature. That means an increase in lifetime of 3.1 years for the and 4.5 years for singlet fission cells.

In the case of cells, there's another handy benefit. When tetracene inevitably degrades, it becomes transparent to , allowing the cell to continue functioning as a conventional silicon device, albeit one that has initially operated at a lower temperature and delivered superior efficiency during the first phase of its lifecycle.

Lead author Dr. Jessica Yajie Jiang said: "The commercial value of photovoltaic technologies can be increased by either increasing the energy conversion efficiency or the operational lifespan. The former is the primary driver for the development of next generation technologies, while little thought has been given to the potential lifespan advantages.

"We demonstrated that these advanced photovoltaic technologies also show ancillary benefits in terms of enhanced lifespan by operating at and more resilience under degradation, introducing a new paradigm to evaluate the potential of new solar energy technologies."


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More information: Yajie Jiang et al. Singlet fission and tandem solar cells reduce thermal degradation and enhance lifespan, Progress in Photovoltaics: Research and Applications (2021). DOI: 10.1002/pip.3405
Provided by ARC Centre of Excellence in Exciton Science
Citation: Chill out: Advanced solar tech runs cooler and lasts longer (2021, May 10) retrieved 28 September 2021 from https://techxplore.com/news/2021-05-chill-advanced-solar-tech-cooler.html
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