High-efficiency solar cells generate electricity cheaply while also taking up less space and consuming fewer resources. They also help promote the use of new products, such as electric vehicles, which can be charged from solar cells. Due to their physical limits, the efficiency of silicon solar cells cannot be increased much further. However, the use of tandem solar cells made of several light-absorbing layers enables efficiencies to be increased to over 35%, which is why so much attention is being devoted to them in current solar cell research. In the “MaNiTU“ project, six Fraunhofer institutes are developing sustainable, highly efficient and cheap tandem solar cells based on new absorber materials.
For Germany, the development of innovative and disruptive technologies such as tandem solar cells represents a further opportunity, alongside research, solar plant construction and the supply of materials, to carve out a leading role internationally in the manufacture of solar cells. This means that “MaNiTU“ also opens up an alternative perspective for a successful European PV industry.
Perovskite solar cell technology, which over the last ten years has managed to increase the efficiency of solar cells from 3.8 to 24.2%, has simplified the manufacture of cells and has the potential to substantially reduce production costs, lies at the heart of the lighthouse project “MaNiTU“ – materials for tandem solar cells with ultrahigh conversion efficiency. Perovskite materials
are deemed to include any materials whose crystalline structure corresponds to that of the mineral calcium titanate. Such materials are especially good at absorbing light and enable high electron mobility – ideal for use in photovoltaic systems. Given their physical properties, these types of materials are also suited for use in tandem structures based on silicon solar cells.
However, the use of lead means that this material is not without its drawbacks. Given that over the next five to ten years the power
output of photovoltaic installations will increase to over 1 TWp, the use of critical materials in the construction of solar modules must be avoided wherever possible. Starting out with familiar perovskite absorber materials, “MaNiTU“ employs ultramodern techniques from materials science to develop new lead-free absorber layers and contact and passivation layers suitable for use with the former, enabling critical and toxic materials to be excluded from the outset. The innovative approach consisting of handling absorber and contact layers together enables the targeted use of interface effects for the desired functionalities. Perovskite technology is then combined with conventional silicon technology. This is achieved by depositing perovskite cells directly on silicon solar
cells. Given that the individual solar cells are particularly efficient at using different sections of the solar spectrum, efficiency overall is increased and more electricity can be generated using the same area of solar cells. At the end of the project stability and high rates of efficiency are demonstrated at module level.
This Fraunhofer lighthouse project is scheduled to last four years. The aim of this research program is to fully exploit the potential for
synergies by pooling competencies at several Fraunhofer institutes to deliver solutions for the challenges faced by German industry.