Optical progress offers a boost for designing the next generation of solar module
In 2023, solar photovoltaic (PV) systems accounted for more than 5 percent of global electricity production, with installed capacity that doubled around two to three years. Optical technologies are now on the rise as important enablers to further improve the efficiency of the module and to make new applications possible, including aesthetically tailor -made solar panels for building facades. A new expert-driven report, coordinated by Helmholtz-Zentrum Berlin (HZB) Scientists Prof. dr. Christiane Becker and Dr. Klaus Jager, offers a detailed analysis of the most promising innovations in this area.
Photovoltaic solar energy on solar energy have become one of the most affordable sources of electricity worldwide. From November 2024, global PV installations two Terawatts surpassed, underlines the rapid pace of expansion and cost reduction.
Contributions from 22 leading research institutions
“During a recent workshop we discussed how the optical community can contribute to the further growth of photovoltaic,” said Prof. Christiane Becker, who leads the Solar Energy Optics department at HZB. Together with Dr. Klaus Jager brought them together a team of 27 experts from 22 institutions in nine countries to produce a broad assessment of emerging PV and optical technologies.
Braak optical concepts
Starting with an extensive view of the current PV implementation on Terawatt scale, the report identifies critical areas where optical strategies can make important contributions. “We have also identified a number of optical concepts that are currently only on the threshold of economic viability, but which are the most promise for promoting PV technology,” said Becker. Important areas include multi-junction solar cells, which offer the highest efficiency between all PV technologies and can help reduce the level of energy.
Sustainability and aesthetics
The review also emphasizes the importance of environmentally friendly production and the reduced use of scarce materials through eco-design approaches. Another marked innovation is the development of colored PV modules that are suitable for integration into construction architecture. “Especially in cities we also have to use facades and other surfaces for the conversion of solar energy, and of course it makes it possible to make the PV modules look like. Such innovative solar modules make advanced aesthetic solutions possible,” Becker said.
Becker and Jager believe that the assessment will not only serve as a valuable source for researchers, but also for financing agencies and policy traps that want to accelerate the use of advanced solar technologies.
Research report:Optica for photovoltaic scale scale from Terawatt: Review and Perspectives