Science and Emerging Technology of 2D Atomic Layered Materials and Devices
Technical Report,19 Feb 2015,18 Feb 2017
UNIVERSIDAD DEL PAIS VASCO - EUSKAL HERRIKO UNIBERTSITTEA VIZCAYA Spain
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The project resulted in 16 published papers in world-class journals and was instrumental, directly or indirectly, in the award of nine prestigious Marie Sklowdowska-Curie grants to pursue follow-on research. The papers that describe all the work are accessible in the attached document and are listed here- Creating stable Floquet-Weyl semimetals by laser-driving of 3D Dirac materials. - h-AlN-MgOH2 vdW Bilayer Heterostructure Tuning theexcitonic characteristics- Emergent elemental two-dimensional materials beyond grapheme. - Ab Initio Modeling of Plasmons in Metal-Semiconductor Bilayer Transition Metal Dichalcogenide Heterostructure- Atoms and Molecules in Cavities From Weak to Strong Coupling in QED Chemistry. - Confined linear carbon chains as a route to bulk carbyne- On the exciton coupling between two chlorophyll pigments in the absence of a protein environment Intrinsic effects revealed from theory and experiment. - Square selenene and tellurene novel group VI elemental 2D semi-Dirac materials and topological insulators. - Quantum Plasmonics From jellium models to ab-initio calculations. - Negative plasmon dispersion in 2H-NbS2 beyond charge-density-wave interpretation- Stable monolayer honeycomb-like structures of RuX2 X S, Se. - Disentangling Vacancy Oxidation on Metallicity-Sorted Carbon Nanotubes. -Theoretical Insight into the Internal Quantum Efficiencies of PolymerC60 and PolymerSWNT Photovoltaic Devices. - Dynamics of observables and exactly solvable quantum problems Using time-dependent density functional theory to control quantum systems.
- Plasma Physics and Magnetohydrodynamics
- Quantum Theory and Relativity
- Electrical and Electronic Equipment