TT-Award 2025: Perovskite solar cells from Germany
This year's HZB Technology Transfer Award goes to Kevin J. Prince and Siddhartha Garud. © HZB / M. Setzpfandt
Congratulations to the winning teams:
First place: Siddhartha Garud and Kevin J. Prince (third and fourth from left)
Second place: Prashanth W. Menezes and Carsten Walter (first and second from left)
Third place: Michele Segantini (right) © HZB M. Setzpfandt
During the poster presentation, guests had the opportunity to talk to all of the finalists. © HZB / M. Setzpfandt
Many attentive eyes in the audience during the finalists’ presentations. © HZB / M. Setzpfandt
Photovoltaics is the leading technology in the transition to clean energy. However, traditional silicon-based solar technology has reached its efficiency limit. Therefore, a HZB-team has developed a perovskite-based multi-junction cell architecture. For this, Kevin J. Prince and Siddhartha Garud received the Helmholtz-Zentrum Berlin's (HZB) Technology Transfer Prize of 5,000 euros.
Prince sees perovskite as the future: "Perovskite can be the key for production in Europe by dramatically reducing the energy and material cost levels for production, while also offering higher efficiencies unreachable by current mainstream technology." The goal is to revive PV manufacturing in Germany and Europe.
The project was selected in September 2024 for the German government's German Accelerator U.S. Climate Tech Market Discovery Program. The groundbreaking technology was presented at Climate Week NYC, the Greater Miami Chamber Climate Tech and the Eco Summit in Berlin, among others.
"We have successfully created a proof of concept on a small scale. As a breakthrough technology, it is currently in the research and development phase," said Garud.
Second place was awarded to the ClearWater project led by Carsten Walter and Prashanth W. Menezes. ClearWater extends the traditional water purification stages - coagulation, aeration (aeration) & sedimentation and filtration & disinfection - to include the process of photocatalysis. The third prize was awarded to Michele Segantini's team for the development of a miniaturised and portable quantum sensor for detecting free radicals in various industrial applications. The potential applications are diverse, for example in foods such as beer and olive oil, but also in batteries, lubricating oil and pharmaceutical products.
From a total of 15 competition entries from HZB research teams, the jury, consisting of members of the HZB Industrial Advisory Board, selected the six final projects, all of which demonstrated a different facet of research. The degree of innovation and market potential were decisive factors in the evaluation of the projects. The public was also allowed to vote to determine the winning projects.
NEPTUNE with nanoscale electrochemical probes (Dr Neha Jha, Dr Martin Munz), an X-ray microscope with photoelectron detection (Prof. Dr Gerd Schneider, Dr Stefan Rehbein) and CLIMAT, magnetotransport induced by constant light (Dr Artem Musiienko) were also nominated.
The prize is awarded every two years to stimulate transfer and encourage researchers to drive their developments towards application.
Prof Maximilian Fleischer, CTO at Siemens Energy Ventures and Chairman of the Industrial Advisory Board, praised the high standard of all the competition entries. "The quality was incredible. Several projects deserved the prize. This emphasises the international appeal of HZB in research and industry".
- Susanne Gietl
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- The future of corals – what X-rays can tell usThis summer, it was all over the media. Driven by the climate crisis, the oceans have now also passed a critical point, the absorption of CO2 is making the oceans increasingly acidic. The shells of certain sea snails are already showing the first signs of damage. But also the skeleton structures of coral reefs are deteriorating in more acidic conditions. This is especially concerning given that corals are already suffering from marine heatwaves and pollution, which are leading to bleaching and finally to the death of entire reefs worldwide. But how exactly does ocean acidification affect reef structures?
Prof. Dr. Tali Mass, a marine biologist from the University of Haifa, Israel, is an expert on stony corals. Together with Prof. Dr. Paul Zaslansky, X-ray imaging expert from Charité Berlin, she investigated at BESSY II the skeleton formation in baby corals, raised under different pH conditions. Antonia Rötger spoke online with the two experts about the results of their recent study and the future of coral reefs.
- Long-term stability for perovskite solar cells: a big step forwardPerovskite solar cells are inexpensive to produce and generate a high amount of electric power per surface area. However, they are not yet stable enough, losing efficiency more rapidly than the silicon market standard. Now, an international team led by Prof. Dr. Antonio Abate has dramatically increased their stability by applying a novel coating to the interface between the surface of the perovskite and the top contact layer. This has even boosted efficiency to almost 27%, which represents the state-of-the-art. After 1,200 hours of continuous operation under standard illumination, no decrease in efficiency was observed. The study involved research teams from China, Italy, Switzerland and Germany and has been published in Nature Photonics.