0000000000347041

AUTHOR

N. Jug

showing 4 related works from this author

Competition between surface reaction and diffusion of gold deposited onto ZrTe3

2003

Abstract Surface reaction and diffusion of gold, deposited onto the (0 0 1) ZrTe 3 van der Waals (vdW) surface, is studied by transmission electron and scanning tunneling microscopy. It is shown that both processes compete at temperatures as low as room temperature. In case of diffusion the deposited gold mostly disappears from the surface and intercalates into the vdW gaps of the substrate. Residual unreacted gold agglomerates are rather mobile and are often displaced by the scanning tip along the [1 0 0] direction of the substrate. In case of reaction, which usually takes place at somewhat higher substrate temperatures, grains of Zr 3 Te 2 , AuTe 2 and/or Au 2 Te 3 are formed. Contrary to…

Surface diffusionZirconiumDiffusionAnalytical chemistrychemistry.chemical_elementNanotechnologySurfaces and InterfacesSubstrate (electronics)Condensed Matter PhysicsSurfaces Coatings and Filmslaw.inventionsymbols.namesakechemistryTransmission electron microscopylawMonolayerMaterials Chemistrysymbolsvan der Waals forceScanning tunneling microscopeSurface Science
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Enhanced CDW Transitions in Nb3X4(X = S, Se, Te): Intercalation and Surface Effects

2004

A x Nb 3 X 4 (A = In, Tl, ZnHg; X = S, Se, Te) compounds show CDW instabilities dependent on the type and concentration of intercalate. Tl or In intercalation flattens the Fermi surfaces and supports CDW formation. In the corresponding DOS spectrum the Fermi level is shifted towards coincidence with a small peak, derived mainly from the Nb dz 2 orbital. Localized modulated regions observed in STM images of Nb 3 X 4 at room temperature represent precursor effects to full CDW formation.

Surface (mathematics)Materials scienceCondensed matter physicsFermi levelIntercalation (chemistry)Fermi surfaceElectronic structureCondensed Matter PhysicsElectronic Optical and Magnetic Materialslaw.inventionsymbols.namesakeSmall peaklawsymbolsScanning tunneling microscopeFermi Gamma-ray Space TelescopeFerroelectrics
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The Instability of the NbTe2 Surface Structure

2002

Low energy electron diffraction from clean NbTe 2 surfaces shows very diffuse reflections. The effect is attributed to an anisotropic heating of the irradiated Te-Nb-Te surface layer. Diffraction patterns for electron energies below 90 eV correspond to an overlapped contribution from numerous domains, belonging to three orientational variants. Electrons of higher energies stabilize the parent high-temperature CdI 2 structure. A similar effect is observed during scanning tunneling microscopy, where the expected surface corrugation is usually lost for tunneling currents of a few ten nA.

DiffractionLow-energy electron diffractionChemistryElectronCondensed Matter PhysicsMolecular physicsInstabilityElectronic Optical and Magnetic Materialslaw.inventionlawSurface layerScanning tunneling microscopeAtomic physicsAnisotropyQuantum tunnellingphysica status solidi (a)
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Alternative model for the structural modulation inNbSe3andm−TaS3

2001

Materials scienceCondensed matter physicsModulationSuperlatticePhysical Review B
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