Perovskite-Info: the perovskite experts

Perovskite-Info is a news hub and knowledge center born out of keen interest in the wide range of perovskite materials.

Perovskites are a class of materials that share a similar structure, which display a myriad of exciting properties like superconductivity, magnetoresistance and more. These easily synthesized materials are considered the future of solar cells, as their distinctive structure makes them perfect for enabling low-cost, efficient photovoltaics. They are also predicted to play a role in next-gen electric vehicle batteries, sensors, lasers and much more.

Recent perovskite News

Researchers use improved gas quenching technique for highly efficient perovskite solar cells

A team of researchers, led by the University of Sydney, have used a new approach that could be the key to producing low cost and environmentally friendly perovskite solar cells, while achieving a new efficiency milestone for these cells.

The researchers said they had made crucial improvements to the process of ‘gas quenching’ to fabricate perovskite thin films. The research team successfully demonstrated a steady-state conversion efficiency of 23.6%, which they claim is the highest efficiency achieved for perovskite solar cells produced using the ‘gas quenching’ technique.

Meyer Burger is considering legal options to enforce its rights after Oxford PV announces unilateral termination of the collaboration

Earlier this month, Oxford PV announced the completion of the build-out of its manufacturing site in Brandenburg an der Havel, Germany. Oxford PV concluded that announcement by saying that "With the achievement of this factory milestone, Oxford PV has terminated its exclusive relationship with Meyer Burger".

Meyer Burger Technology was informed of the termination of partnership (in place since 2019) through the press release (as well as a letter from Oxford Photovoltaics). In view of the unexpected announcement of termination by Oxford PV, Meyer Burger is reportedly considering legal options to enforce its rights.

Oxford PV completes build-out of its Brandenburg factory

Oxford PV has announced that it has completed the build-out of its manufacturing site in Brandenburg an der Havel, Germany.

Oxford PV completes build-out of new factory image

The site houses the world’s first volume manufacturing line for Oxford PV’s innovative perovskite-on-silicon tandem solar cells with an annual target manufacturing capacity of 100 MW. Oxford PV expects the line to start full production in 2022.

Photonic Curing to speed up production of perovskite solar cells

University of Texas at Dallas researchers, led by Dr. Julia Hsu, have shown that a technique called photonic curing can be used to manufacture perovskite solar cells faster than other current methods.

Hsu’s research aims to solve a problem that has impeded large-scale manufacturing of flexible electronics and solar panels: the need to reduce the amount of time for the slowest part of production, called annealing. In this stage, the thin film must be heated to high temperatures, a step that can sometimes take hours and make production costly.

EPFL team addresses the lead issue of perovskite solar cells

A team of scientists at EPFL has come up with an efficient solution to the lead problem of perovskite solar cells, which involves using a transparent phosphate salt that does not block solar light and hence doesn't affect performance.

Removing the lead hazard from perovskite solar cells image

In case the solar panel fails, the phosphate salt immediately reacts with lead to produce a water-insoluble compound that cannot leach out to the soil, and which can be recycled.

New printing process could make for lighter and more efficient perovskite solar cells

University of Arizona scientists have developed a new printing process called Restricted Area Printing by Ink Drawing, or RAPID, and received a three-year, $700,000 grant from the Department of Energy Solar Energy Technologies Office (SETO) to advance the method.

Adam Printz, an assistant professor of chemical and environmental engineering at the University of Arizona, along with his team, started developing the perovskite printing process in late 2019, and they’ve been able to demonstrate on a small scale with 3D-printed parts how it works – using “whatever they had lying around in the lab.” This funding enables them to create a more reproducible and scalable version.

Researchers design stable inverted perovskite solar cells with 22.1% efficiency using a star-shaped polymer

Researchers at the Swiss Federal Institute of Technology in Lausanne (EPFL) and Northwestern Polytechnical University in China have fabricated an inverted perovskite solar cell based on a star-shaped polymer that can reportedly improve charge transport and inhibit ion migration at the perovskite interface.

Inverted perovskite solar cell with 22.1% efficiency via star-shaped polymer imageSchematic diagram of the interaction between the PPP polymer (partial 3D structure) and perovskite. Image from ScienceAdvances

The cell has a “p-i-n” layout and is based on a perovskite material known as CsMAFA modified with a polymer called polyhedral oligomeric silsesquioxane-poly(trifluoroethyl methacrylate)-b-poly(methyl methacrylate) or simply PPP polymer.