Research Data supporting "Incorporating Thermal Co-evaporation in Current-Matched All-Perovskite Triple-Junction Solar Cells"

The deposit includes the dataset for "Incorporating Thermal Co-evaporation in Current-Matched All-Perovskite Triple-Junction Solar Cells". the film and device characterisation data(which contain XRD, JV, and cross-sectional SEM etc.) and optical modelling data(which contain heatmap and spectra etc.) categorised into the following folders: 'Device and Measurement Data' 'Optical Modelling' The folders are labelled according to the manuscript figures. The details are below: Firgure 1: Device and film characterisation data of single-junction FAPbI3 solar cell with respective labels. (e.g. XRD for XRD data). Figure 2: Device and film characterisation data of monolithic triple-junction solar cell dataset. Figure 3: Optical modelling data of optimised parameters of the monolithic triple-junction solar cell. Supplementary Figure 6: Photothermal deflection spectroscopy data for FAPbI3 with varying rates of FAI. Supplementary Figure 9: PV parameters for absorber thickness optimisation. Supplementary Figure 10: J-V stability parameters (5-minute stability). Supplementary Figure 11: Complex refractive index spectra for perovskites. Supplementary Figure 12: J-V and EQE data for sub-cells in the triple-junction solar cell. Supplementary Figure 15: PV parameters for hole transport layer optimisation. Supplementary Figure 16, 17, and 18: PV parameters for the fabricated triple-junction solar cells. Supplementary Table 2: Series and shunt resistances of solar cells for absorber thickness optimisation (complementary to Supplementary Figure 9). Supplementary Figure 20: Simulated refractive index data for the simulated optimised perovskite triple-junction solar cell (Complementary to Figure 3a-c)