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New materials could lead to ultrathin, lightweight solar panels

Justin Rowell by Justin Rowell
29.09.2022
Home Science

A researcher picks up a thin, nearly clear piece of the new material

Researchers have achieved record efficiencies in a promising group of photovoltaic materials.

The new, ultrathin photovoltaic materials could eventually be used in mobile applications, from self-powered wearable devices and sensors to lightweight aircraft and electric vehicles, researchers report.

Chief among the benefits of these transition metal dichalcogenides—or TMDs—is that they absorb ultrahigh levels of the sunlight that strikes their surface compared to other solar materials.

“Imagine an autonomous drone that powers itself with a solar array atop its wing that is 15 times thinner than a piece of paper,” says Koosha Nassiri Nazif, a doctoral scholar in electrical engineering at Stanford University and co-lead author of a study in the Nature Communications. “That is the promise of TMDs.”

The search for new materials is necessary because the reigning king of solar materials, silicon, is much too heavy, bulky, and rigid for applications where flexibility, light weight, and high power are preeminent, such as wearable devices and sensors or aerospace and electric vehicles.

“Silicon makes up 95% of the solar market today, but it’s far from perfect. We need new materials that are light, bendable, and, frankly, more eco-friendly,” says senior author Krishna Saraswat, a professor of electrical engineering.

While TMDs hold great promise, research experiments to date have struggled to turn more than 2% of the sunlight they absorb into electricity. For silicon solar panels, that number is closing in on 30%. To be used widely, TMDs will have to close that gap.

The new prototype achieves 5.1% power conversion efficiency, but the authors project they could practically reach 27% efficiency upon optical and electrical optimizations. That figure would be on par with the best solar panels on the market today, silicon included.

Moreover, the prototype realized a 100-times greater power-to-weight ratio of any TMDs yet developed. That ratio is important for mobile applications, like drones, electric vehicles, and the ability to charge expeditionary equipment on the move. When looking at the specific power—a measure of electrical power output per unit weight of the solar cell—the prototype produced 4.4 watts per gram, a figure competitive with other current-day thin-film solar cells, including other experimental prototypes.

“We think we can increase this crucial ratio another ten times through optimization,” Saraswat says, adding that they estimate the practical limit of their TMD cells to be a remarkable 46 watts per gram.

Their biggest benefit, however, is their remarkable thinness, which not only minimizes the material usage and cost but also makes TMD solar cells lightweight and flexible and capable of being molded to irregular shapes—a car roof, an airplane wing, or the human body. The researchers were able to produce an active array that is just a few hundred nanometers thick. The array includes the photovoltaic TMD tungsten diselenide and contacts of gold spanned by a layer of conducting graphene that is just a single atom thick. All that is sandwiched between a flexible, skin-like polymer and an anti-reflective coating that improves the absorption of light.

When fully assembled, the TMD cells are less than six microns thick—about that of a lightweight office trash bag. It would take 15 layers to reach the thickness of a single piece of paper.

While thinness, light weight, and flexibility are all highly desirable goals in and of themselves, TMDs present other engineering advantages as well. They are stable and reliable over the long term. And unlike other challengers to the thin-film crown, TMDs contain no toxic chemicals. They are also biocompatible, so they could be used in wearable applications requiring direct contact with human skin or tissue.

Certain downsides counter the many advantages of TMDs, mostly in the engineering intricacies of mass production. The process of transferring an ultrathin layer of TMD to a flexible, supporting material often damages the TMD layer.

Alwin Daus, who was co-lead author of the study, devised the transfer process that affixes the thin TMD solar arrays to the flexible substrate. He says this technical challenge was considerable. One step involved transferring the layer of atomically thin graphene onto a flexible substrate that is just a few microns thick, says Daus, who was a postdoctoral scholar in Eric Pop’s research group at Stanford when the research was conducted. He is now a senior researcher at RWTH Aachen University in Germany.

This intricate process results in the TMD being fully embedded in the flexible substrate leading to greater durability. The researchers tested the flexibility and robustness of their devices by bending them around a metal cylinder less than a third of an inch thick.

“Powerful, flexible, and durable, TMDs are a promising new direction in solar technology,” Nassiri Nazif says.

Funding for this research came from the Stanford SystemX Alliance, the Swiss National Science Foundation, the Beijing Institute of Collaborative Innovation, the US National Science Foundation, and the US Department of Energy.

Source: Stanford University

The post New materials could lead to ultrathin, lightweight solar panels appeared first on Technovanguard.


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