Bobby G Sumpter Theory and Computation Section Head, Center for Nanophase Materials Sciences Contact sumpterbg@ornl.gov | 865.574.4973 All Publications Structural correlations tailor conductive properties in polymerized ionic liquids... Machine learning enabled acoustic detection of sub-nanomolar concentration of trypsin and plasmin in solution... Scaling Behavior of Anisotropy Relaxation in Deformed Polymers... 3D Imaging and Manipulation of Subsurface Selenium Vacancies in PdSe2... PdSe 2 : Pentagonal Two-Dimensional Layers with High Air Stability for Electronics... Deuteration as a Means to Tune Crystallinity of Conducting Polymers... Big Effect of Small Nanoparticles: A Shift in Paradigm for Polymer Nanocomposites... Petascale Simulations of the Morphology and the Molecular Interface of Bulk Heterojunctions... Directing Matter: Towards Atomic Scale 3D Nanofabrication... Recent Advances in Two-Dimensional Materials Beyond Graphene... Atomic-level sculpting of crystalline oxides: towards bulk nanofabrication with single atomic plane precision... Big-deep-smart data in imaging for guiding materials design... Electronic Bandgap and Edge Reconstruction in Phosphorene Materials... Electro-Induced Dewetting and Concomitant Ionic Current Avalanche in Nanopores... Modeling Charge Transfer in Fullerene Collisions via Real-Time Electron Dynamics... Covalently bonded three-dimensional carbon nanotube solids via boron induced nanojunctions... Density-functional approaches to non-bonding interactions: a comparison of dispersion corrections (DFT-D), exchange-hole dip... P3HT-b-PS Copolymers as P3HT/PCBM Interfacial Compatibilizers for High Efficiency Photovoltaics... P- and PN-Doped Nanotubes for Ultrasensitive and Selective Molecular Detection... Covalent Metal-Nanotube Heterojunctions as Ultimate Nano-Contacts... Viscoelastic relaxation and topological fluctuations in glass-forming liquids Amplifying Nanoparticle Reinforcement through Low Volume Topologically Controlled Chemical Coupling Unveiling mesoscopic structures in distorted lamellar phases through deep learning-based small angle neutron scattering analy... Digital twins and deep learning segmentation of defects in monolayer MX2 phases Importance of hydrogen bonding in base-catalyzed transesterification reactions with vicinal diols Pagination Current page 1 Page 2 Page 3 … Next page ›› Last page Last » Key Links Curriculum Vitae Google Scholar ORCID Organizations Physical Sciences Directorate User Facilities Center for Nanophase Materials Sciences Theory & Computation Section Nanomaterials Theory Institute Group Data NanoAnalytics Group
