DC1: Towards industrially compatible high-performance organic IPV – failure mode analysis
DC2: High efficiency and stable DSPV and mini-modules for low-light operation
DC3: Towards industrially compatible high-performance organic IPV – Active material meta-processes
DC4: Fully printed large-area Bi-based PSK mini-modules
DC5: Highly efficient and stable Sn halide PSK-based IPVs
DC7: Eco-design of materials and processes for eco-efficient indoor PV devices
DC8: Development of sustainable transparent encapsulation barrier membranes for IPVs
DC9: Solution-processed lead-free Bi-based PSK for IPV applications
DC10: Design and synthesis of charge-transport materials for IPVs
DC11: Data-driven methods for experimental guidance and image analysis
DC12: Establishing equivalent ISOS protocols for IPVs: a case study on Sn-PSK IPVs
DC13: Realization of printed sustainable large area organic IPV mini-modules
DC14: Recycling processes for inorganic and PSK-based IPVs
DC15: Development and Validation of IoT prototype powered by MENTOR IPVs
DC16: Analysis of degradation mechanisms and device optimisation of IPV devices
DC17: New methods for accurate and reproducible assessment of performance, losses and reliability in indoor PV cells and modules