Peel-off trick might pave the way for solar cell windows
"In principle, we can now scale semitransparent organic solar cells to two meters by two meters, which brings our windows much closer to reality."
July 25, 2022 • 5 min • Source
Researchers have developed a way to manufacture highly efficient and semitransparent solar cells.
“In principle, we can now scale semitransparent organic solar cells to two meters by two meters [about 6.56 feet], which brings our windows much closer to reality,” says Stephen Forrest, professor of electrical engineering at the University of Michigan and corresponding author of a study published in Joule .
Traditional silicon-based solar cells are completely opaque, which works for solar farms and roofs but would defeat the purpose of windows. However, organic solar cells, in which the light absorber is a kind of plastic, can be transparent.
Organic solar cells have lagged behind their silicon-based cousins for energy-producing purposes due to engineering challenges such as low efficiency and short lifespans, but recent work out of Forrest’s lab has achieved record efficiencies of 10% and estimated lifetimes of up to 30 years .
So the team has turned its attention to making transparent solar cells manufacturable. A significant challenge is creating the micron-scale electrical connections between individual cells that comprise the solar module. Conventional methods that use lasers to pattern the cells can easily damage the organic light absorbers.
Instead, the team developed a multistep peel-off patterning method that achieved micron-scale resolution. They deposited thin films of plastic and patterned them into extremely thin strips. Then, they set down the organic and metal layers. Next, they peeled off the strips, creating very fine electrical interconnections between the cells.
The group connected eight semitransparent solar cells, each 4 cm x 0.4 cm (0.157 inches) and separated by 200µm-wide interconnections, to create a single 13 cm 2 (2.015 in 2 ) module. The power conversion efficiency of 7.3% was approximately 10% less than for the individual solar cells in the module.
This small efficiency loss does not increase with the size of the module; hence, similar efficiencies are expected for meter-scale panels as well. With a transparency nearing 50% and a greenish tint, the cells are suitable for use in commercial windows. Higher transparencies that are likely preferred for the residential market are easily achieved by this same technology.
“It is now time to get industry involved to turn this technology into affordable applications,” says Xinjing Huang, a doctoral student in applied physics and first author of the research.
Eventually, the flexible solar cell panel will be sandwiched between two window panes. The goal for these energy-generating window films is to be about 50% transparent with 10%-15% efficiency . Forrest believes this can be achieved within a couple years.
“The research we are doing is de-risking the technology so that manufacturers can make the investments needed to enter large scale production,” Forrest says.
The technique can also be generalized to other organic electronic devices, he says. And in fact, his group is already applying it to OLEDs for white lighting.
The University of Michigan has applied for patent protection and is seeking partners to bring the technology to market.
Support for the research came primarily from the US Department of Energy. Additional support came from Universal Display Corporation. Forrest and the University of Michigan have a financial interest in Universal Display Corp.
Source: University of Michigan
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