Search

Seeing both sides of light collection - EurekAlert

sekirta.blogspot.com
IMAGE

IMAGE: The efficiency of solar cells can be increased by combining two light-absorbing materials. Such tandem devices derive energy from both direct sunlight and light reflected from other surfaces. view more 

Credit: © 2021 KAUST; Anastasia Serin

Two types of materials are better than one when it comes to solar cells, as revealed by an international team that has tested a new combination of materials and architecture to improve solar-cell efficiency.

Silicon has long dominated as the premier material for solar cells, helped by its abundance as a raw material. However, perovskites, a class of hybrid organic-inorganic material, are a viable alternative due to their low-cost and large-scale manufacture and potentially higher performance. While still too unstable for full commercialization, they might become available to the market by 2022.

KAUST's Michele De Bastiani and Stefaan De Wolf, working with colleagues in Canada, Germany and Italy, now show that a combination of the two is the best approach. By optimizing the material composition and the architecture of a "tandem" device, the team has achieved efficiencies beyond commercial silicon solar panels.

Sunlight, of course, comes directly from the sun, but illumination also comes from light reflecting off other surfaces, known as albedo. A device architecture that collects light from the back as well as from the front can utilize this source. "Our bifacial tandems exploit both direct sunlight and the albedo to generate electricity in a more efficient way than their conventional counterparts," explains De Bastiani.

He and the team started with a simple silicon device structure that was textured top and bottom to enhance light collection. They then used a solution-processing method to deposit a thin perovskite layer on top. A transparent back electrode allowed light in while also allowing a current to flow out. The researchers tested five perovskite materials, each with a different chemical composition, to increase the absorption of incoming light. In this way, they were able to identify the perovskite that best matched the electronic properties of the silicon.

"A restriction of the tandem configuration is the limited current through the lower of the two subcells," says De Bastiani. "We designed our tandem with a unique feature: the perovskite subcell generates more current than the silicon counterpart by stealing light that would be otherwise absorbed by the bottom subcell."

The team tested their bifacial devices and compared the performance to similar monofacial devices in various outdoor settings with a range of albedos, such as, for example, bright sandstone or concrete. They found that, in all conditions, the bifacial configuration outperformed the monofacial one.

"We are now investigating the stability of the perovskite while also scaling up the technology to the module level," says De Bastiani. "For this, we are looking for industrial partners and sponsors."

###

Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.

Let's block ads! (Why?)



"light" - Google News
March 11, 2021 at 11:36PM
https://ift.tt/3taMXhf

Seeing both sides of light collection - EurekAlert
"light" - Google News
https://ift.tt/2Wm8QLw
https://ift.tt/2Stbv5k

Bagikan Berita Ini

0 Response to "Seeing both sides of light collection - EurekAlert"

Post a Comment

Powered by Blogger.