Delocalization error prevents density functional theory (DFT) from reaching its full potential, causing problems like systematically underestimated band gaps and misaligned energy levels at interfaces. We introduce lrLOSC to correct delocalization error in materials over a wide range of band gaps. We predict eleven materials' fundamental gaps to within 0.22 eV, while offering a nonzero total energy correction; molecular properties are improved with a parallel implementation of the same theory [J. Phys. Chem. Lett. 16, 2492 (2025)]. lrLOSC is an essential step toward modeling molecules, materials, and their interfaces within the same DFT framework.
@article{arxiv.2406.07351,
title = {Correcting Delocalization Error in Materials with Localized Orbitals and Linear-Response Screening},
author = {Jacob Z. Williams and Weitao Yang},
journal= {arXiv preprint arXiv:2406.07351},
year = {2026}
}
Comments
9 pages (+ 14 supplemental), 3 (+2) figures. v4 (updated after peer review): fixed MgO experimental gap (to be fundamental, not excitonic), added comparison to other methods