“… 3 , 10 It has been reported in past work that defect levels computed from semilocal GGA-PBE for well-known ZB semiconductors such as Si and GaAs can span the physical band gap of the material 25 , 50 ; that is, the defect transition levels calculated from PBE correspond well with experimental values up to the experimental band gap, even for transitions that are further from the VBM than the PBE-calculated band gap. To ascertain the accuracy of PBE defect and impurity levels in all II–VI, III–V, and IV–IV compounds, we scoured the published literature 51 , 52 , 53 , 54 , 55 , 56 , 57 , 58 , 59 , 60 , 61 , 62 , 63 , 64 , 65 , 66 (in a brute force manner, something we hope to replace with more efficient and comprehensive natural language processing-based searches in the future 67 , 68 ) and collected measured energy levels for 84 defects across the 34 compounds, adding to the set of 15 points collected for CdTe in ref 12 As presented in Figure 2 and Table S2 , the PBE predicted defect levels are highly correlated with experimental measurements, with a correlation coefficient (R 2 ) of 0.85. We find that the RMSE of PBE predictions compared with experiments is less than 0.2 eV for III–V and IV–IV compounds, and 0.24 eV for II–VI compounds, resulting in a total RMSE of approximately 0.21 eV.…”