2004
Two-bandgap magneto-thermal conductivity of polycrystalline MgB2
Wu B, Yang D, Zeng W, Li S, Li B, Fan R, Chen X, Cao L, Ausloos M. Two-bandgap magneto-thermal conductivity of polycrystalline MgB2. Superconductor Science And Technology 2004, 17: 1458. DOI: 10.1088/0953-2048/17/12/017.Peer-Reviewed Original ResearchMagnetic fieldMagneto-thermal conductivitySuperconductivity of MgB2Thermal conductivityBand superconductorPolycrystalline MgB2Critical fieldSuperconducting MgB2MgB2Vortex coreField valuesLow-energy statesHigh fieldsVortex structuresRecent resultsTemperature dependenceConductivityFunction of temperatureFieldSuperconductorsSuperconductivityEnergy statesOrders of magnitudeQuasiparticlesLow temperatureA new colloidal precursor cooperative conversion route to nanocrystalline quaternary copper sulfide
Gui Z, Fan R, Chen X, Hu Y, Wang Z. A new colloidal precursor cooperative conversion route to nanocrystalline quaternary copper sulfide. Materials Research Bulletin 2004, 39: 237-241. DOI: 10.1016/j.materresbull.2003.09.035.Peer-Reviewed Original ResearchX-ray energy-dispersive spectroscopy techniquesElectron microscopyPlasma atomic emission spectroscopyTransmission electron microscopyEnergy dispersive spectroscopy (EDS) techniquesConversion routesX-ray powder diffractionAtomic emission spectroscopyEmission spectroscopyReaction detailsCopper sulfideSpectroscopy techniquesPowder diffractionLow temperatureMicroscopyRouteCu2FeSnS4SpectroscopyColloidsDiffractionSulfide
2002
Precursor Morphology Controlled Formation of Rutile VO2 Nanorods and Their Self-Assembled Structure
Gui Z, Fan R, Mo W, Chen X, Yang L, Zhang S, Hu Y, Wang Z, Fan W. Precursor Morphology Controlled Formation of Rutile VO2 Nanorods and Their Self-Assembled Structure. Chemistry Of Materials 2002, 14: 5053-5056. DOI: 10.1021/cm020178f.Peer-Reviewed Original ResearchVO2 nanorodsPrecursor morphologyX-ray energy-dispersive spectroscopy techniquesSelf-assembled structuresX-ray powder diffractionElectron microscopyOne-dimensional morphologyEnergy dispersive spectroscopy (EDS) techniquesDifferential scanning calorimetryArea electron diffractionHydrothermal reactionTransmission electron microscopyThermogravimetric analysisReaction detailsSealed autoclavePowder diffractionSpectroscopy techniquesScanning calorimetryNanorodsNanocrystalline domainsHigh-resolution electron microscopyElectron diffractionDiffractionMorphologyLow temperature
2001
Low-Temperature Hydrothermal Synthesis of Transition Metal Dichalcogenides
Chen, Fan R. Low-Temperature Hydrothermal Synthesis of Transition Metal Dichalcogenides. Chemistry Of Materials 2001, 13: 802-805. DOI: 10.1021/cm000517+.Peer-Reviewed Original ResearchTransition metal dichalcogenidesTransition metal saltsMetal dichalcogenidesTemperature hydrothermal synthesisDifferent reaction conditionsNew aqueous solutionPyrite NiS2Transmission electron microscopy imagesMetal saltsHydrothermal synthesisHydrothermal reactionAqueous solutionReaction conditionsElectron microscopy imagesNature of productsSurface areaMicroscopy imagesDichalcogenidesLow temperatureNa2SeSO3NiSe2NiS2FeS2CoS2Synthesis