Verify LinXole’s hole transport layer material to enable next-generation solar panels

Important results from the project

By working with three project partners and other collaborators not mentioned in the application, the project fulfilled all the tasks we had planned and achieved all the goals we had set. In brief, we have validated LinXole´s materials in small-scale devices with different perovskite compositions. We have also fabricated large-area films of LinXole’s materials using the slot-die coating technique and achieved high power conversion efficiency in large-area devices.

Expected long term effects

The insights and material innovations from this project are expected to contribute to the broader adoption of fully printable, high-performance perovskite solar modules. These results could accelerate the transition to cost-effective, low-carbon solar energy solutions and support the global need. The potential for integration of flexible and building-integrated photovoltaics further expands the impact of these results across diverse application areas.

Approach and implementation

The project followed the planned two-phase structure: validation on a small-scale devices and integration of the materials on a large-scale device. All activities were carried out on time and as planned. The collaboration between the partners worked effectively and the industry partners provided valuable input. There were no major delays or external disruptions. An unplanned but impactful outcome based on industry feedback increases the relevance and impact of the project.