Addis Fuhr Research Scientist Contact FUHRAS@ORNL.GOV All Publications Ligand-induced self-assembly of twisted two-dimensional halide perovskites JARVIS-Leaderboard: a large scale benchmark of materials design methods Digital twins and deep learning segmentation of defects in monolayer MX2 phases... Pressure modulated charge transfer and phonon interactions drive phase transitions in uranium–aluminum laves phases Defects go green: using defects in nanomaterials for renewable energy and environmental sustainability High-speed mapping of surface charge dynamics using sparse scanning Kelvin probe force microscopy Deep Generative Models for Materials Discovery and Machine Learning-Accelerated Innovation Key Links Curriculum Vitae Organizations Physical Sciences Directorate User Facilities Center for Nanophase Materials Sciences Theory and Computation Section Nanomaterials Theory Institute Group
Research Highlight High-speed Mapping of Surface Charge Dynamics using Sparse Scanning Kelvin Probe Force Microscopy (SS-KPFM)
