In the last ten years, so-called perovskites have emerged as highly promising materials for solar cells. Perovskites are comprised of low-cost, abundant components and can be processed with inexpensive solution-processing methods comparable to techniques used for printing newspapers. This has attracted major interest from diverse research communities, which has led to perovskites being called “wonder material”. Recently, it was reported that solar cells based on perovskites achieve performances comparable to established, commercial technologies that took decades to optimize. Thus, perovskite solar cells hold great promise as a source of sustainable energy with a low carbon footprint.
Established technologies can withstand outside exposure to the elements for many decades while hardly degrading. As perovskite solar cells approach their theoretical performance maximum, the key challenge of long-term stability for many decades is still not met. One the other hand, perovskite research is still relatively young and therefore has not yet established binding protocols on measuring stability. To get the perovskite technology market-ready soon, however, accelerated aging parameter must be found to extrapolate long-term degradation while aging for a significantly shorter time.
Paper published in “Nature Energy”
This challenge was tackled in a recent publication in the world-leading journal Nature Energy aggregating the condensed knowledge among 59 leading researchers from 51 institutions from all over the world to form an agreed-upon starting point for a standardized measurement protocol in the future. Among the co-authors is Professor Michael Saliba, who heads the Opto Group at the Department of Materials and Earth Sciences at TU Darmstadt and, at the same time, a group of young researchers at Forschungszentrum Jülich.
“The coming years will be crucial to transform this new technology from a curiosity in the academic ivory tower into a source of clean, inexpensive and sustainable energy.” , says Michael Saliba, “Only with this coordinated effort to establish a consensus stability protocol will it be possible to elevate perovskite solar cells to next level.”
Michael Saliba / bjb