Keywords: 61.46.-w; 75.60.-d; 75.60.Ej; 71.45.Gm; Superlattice; Ising model; Monte Carlo simulations; Critical temperature; Surface and bulk science;
مقالات ISI (ترجمه نشده)
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Quest for magnetism in graphene via Cr- and Mo-doping: A DFT approach
Keywords: 71.15.Mb; 61.46.-w; 75.70.AkDFT; FPLAPW; Spintronics; Graphene
Structural studies of ZnS thin films grown on GaAs by RF magnetron sputtering
Keywords: 61.46.-w; 68.37.Ps; 68.55.-aSputtering; Nanoparticles; ZnS; XRD; AFM
Free vibration of a single-walled carbon nanotube containing a fluid flow using the Timoshenko beam model
Keywords: 61.46.-w; 61.46.FgFluid-conveying SWCNT; Timoshenko beam theory; Vibration frequency; Mode shape
Preparation of one dimensional Bi2O3-core/ZnO-shell structures by thermal evaporation and atomic layer deposition
Keywords: 61.46.-w; 78.55.-m; 81.07.-bA. Bi2O3; A. ZnO; C. One-dimensional structure; D. Thermal evaporation
Growth kinetic and characterization of tetrapod ZnO nanostructures
Keywords: 61.46.-w; 81.05.Dz; 81.07.-b; 81.10.Aj; 81.10.BkA. Semiconductor; A. Nanostructures; B. Crystal growth; C. Scanning and transmission electron microscopy
Growth of SnO2 nanowires by thermal evaporation on Au-coated Si substrates
Keywords: 61.46.-w; 78.55.-m; 81.07.-bSnO2; Nanowires; Thermal evaporation; TEM; SEM; Photoluminescence
Effect of ion beam etching on the field emission of carbon nanotube arrays
Keywords: 61.48.De; 85.45.Fd; 61.46.-w; A. Carbon nanotube; D. Field emission; E. Ion beam etching;
Carbon additive effects on the nanostructure and magnetic property of the Co–Fe–Zr–B–C films
Keywords: 68.55.-a; 61.46.-w; 78.66.Sq; 78.55.-mComposite films; Nanostructures; Magnetic property; Sputtering
The structure of ultrathin Ni nanowires
Keywords: 61.46.-w; Molecular dynamics; Ultrathin Ni nanowires; Structural stability;
On the applicability of the Cauchy-Born rule
Keywords: 63.10.+a; 61.46.-w; Atomic lattice; Cauchy-Born rule;
The grain size distribution in nanocomposite films
Keywords: 61.46.-w; 68.55.-a; 68.37.Lp; 82.20.WtA. Nanocomposite films; B. Grain growth; E. Monte Carlo simulation
Dynamical behaviors of double-walled carbon nanotubes conveying fluid accounting for the role of small length scale
Keywords: 61.46.-w; 61.46.Fg; 62.25.-g; Carbon nanotube conveying fluid; Small length scale; Natural frequency; Critical flow velocity; Instability;
Preferential Co partitioning to α-Fe in nanocrystalline CoFeNbB alloys by Mn addition
Keywords: 61.46.-w; 61.43.-jAmorphous metals; Metallic glasses; Nanocrystals; Microstructure; Calorimetry
Elastic properties of single-layered graphene sheet
Keywords: 61.46.-w; 62.25.+g; 62.20.Dc; 46.25.-y; 46.05.+bA. Nanostructure; A. Single-layered graphene sheet (SLGS); D. Elastic properties
Molecular dynamics simulation on the buckling behavior of silicon nanowires under uniaxial compression
Keywords: Si nanowires; Compression; Buckling; Molecular dynamics; 61.46.-w; 62.25.-g; 65.80.+n;
Effect of high electronic energy loss of 100 MeV gold heavy ions in copper chalcogenides (CuX, X = S, Se) at nanoscale: Opto-electronic properties study
Keywords: 61.05.-a; 61.46.-w; 61.66.Fn; 61.80.-x; 61.82.FkChalcogenides; Optical spectroscopy; Radiation
Structural phase stability and magnetism in Co2FeO4 spinel oxide
Keywords: 61.66.Fn; 61.46.-w; 75.75.+a; 75.50.KjSpinel ferrite; Mechanical alloying; Structural phase stability; Ferrimagnetism
Ab initio density functional theory investigation of Li-intercalated silicon carbide nanotube bundles
Keywords: 71.15.Mb; 61.46.-w; 71.15.Nc; 73.22.-fDensity functional theory; SiC nanotube; Intercalation; Electronic structure
Qualitative study of nanocluster positioning process: Planar molecular dynamics simulations
Keywords: 02.70.Ns; 07.79.Cz; 36.40.-c; 61.46.-w; 81.07.-b; 81.16.-c; Metallic nanoclusters; Nanomanipulation; Positioning; Molecular dynamics simulations;
A first-principles study of AlnSimân clusters (m = 6, 9, 10; n ⩽ m)
Keywords: Heteroatom; Al-Si cluster; Stable structure; Electronic shell; 36.40.-c; 71.15.-m; 61.46.-w;
Effect of native oxides on the elasticity of a silicon nano-scale beam
Keywords: 73.40.Qv; 61.46.-w; 62.20.DcA. Semiconductors; A. Nano-structures; D. Elasticity
Theoretical models of ZnS nanoclusters and nanotubes: First-principles calculations
Keywords: 61.46.-w; 61.48.-c; 73.22.-fA. Nanostructures; C. Geometric structure; D. Energetic properties; D. Electronic band structure
Spin polarization in carbon nanostructures with disclinations
Keywords: 61.46.-w; 81.05.Uw; 73.22.-f; Nanostructures; Carbon; First-principles method;
Synthesis of straight Y-shaped SiOx nanorods by a simple thermal evaporation method
Keywords: 61.46.-w; 68.37.Hk; 68.37.Lp; A. Straight Y-shaped silica nanorods; B. Thermal evaporation; C. Scanning and transmission electron microscopy;
Fabrication and characterization of amorphous silica nanostructures
Keywords: 61.46.-w; 68.37.Hk; 68.37.Lp; 81.16.Hc; Silica; Nanostructures; Scanning and transmission electron microscopy;
Field emission from hybrid CuO and CuCO3 nanosystems
Keywords: 77.84.Lf; 79.70.+q; 61.46.-w; 61.82.RxA. Nanostructures; A. Thin films; C. Scanning and transmission electron microscopy; C. Field emission
Molecular dynamics simulations of the stability of and defects in ZnO nanosheets
Keywords: 62.25.+g; 61.72.Bb; 61.46.-w; ZnO; Defects; Nanostructures; Molecular dynamics;
Solution of few-body problems with the stochastic variational method II: Two-dimensional systems
Keywords: 31.15.Pf; 61.46.-w; 68.65.Hb; 68.65.-kCorrelated Gaussian basis; Stochastic variational calculation; Quantum dots
Absolute core-level binding energy shifts between atom and solid: The Born-Haber cycle revisited for free nanoscale metal clusters
Keywords: 61.46.-w; 61.46.Bc; 36.40.-c; 79.60.-i; Nanoscale clusters; Electronic structure; Electron spectroscopy;
Formula for the absorption coefficient for multi-wall nanotubes
Keywords: 73.20.Mf; 71.45.Gm; 61.46.-w;
Accurate and efficient methods for modeling colloidal mixtures in an explicit solvent using molecular dynamics
Keywords: 61.20.Ja; 61.46.-w; 61.25.H-Molecular dynamics; Colloid mixtures; Neighbor algorithm
Electrical and optical properties of electroluminescent device using nanocrystalline silicon
Keywords: 61.46.-w; 78.60.Fi; 78.67.Bf; 81.07.BcNanocrystalline silicon particles; Sputtering; Optical properties; Electroluminescence
Synthesis and magnetic characterization of nanostructures N/WS2, where N = Ni, Co and Fe
Keywords: 61.46.-w; 61.66.Fn; 67.80.JdMagnetic materials; Nanomaterials; Characterization methods
Field emission and photoluminescence characteristics of ZnS nanowires via vapor phase growth
Keywords: 61.46.-w; 79.70.+q; 78.55.-m; A. Nanowires; D. Field emission; D. Photoluminescence;
A simple and effective route for the preparation of poly(vinylalcohol) (PVA) nanofibers containing gold nanoparticles by electrospinning method
Keywords: 61.46.-w; 81.05.Zx; 81.20.-nA. Gold nanoparticles; A. Poly(vinylalcohol) (PVA); A. Nanofibers; D. Electrospinning
Nano-scale structural analysis of (La,Fe)TiO3 prepared by Fe/Li ion-exchange
Keywords: 68.37.Lp; 61.46.-w; 81.07.-bA. Perovskite; C. Transmission electron microscopy; C. Structural analysis; D. Ion-exchange
Nanodomain shock wave in near-field laser–material interaction
Keywords: 61.46.-w; 79.20.Ds; 52.65.Yy; 52.35.TcShock wave; Nanodomain; Near-field laser–material interaction; Molecular dynamics
Field emission characteristics of ZnO nanoneedle array cell under ultraviolet irradiation
Keywords: 61.46.-w; 79.70.+q; 81.05.Dz; 85.45.DbII–VI compound semiconductor; ZnO nanoneedle; Field emission
Size-dependent multilayer relaxation of nanowires and additional effect of surface stresses
Keywords: 61.46.-w; 61.30.Hn; 68.35.Md; 68.03.CdA. Nanowires; A. Metals; D. Multilayer relaxation
Stability of carbon-doped silicon clusters: FP-LMTO molecular dynamics calculations
Keywords: 36.40.-c; 71.15.-m; 61.46.-w; Silicon cluster; Carbon doping; Binding energy; Impurity C atom; Stable structure;
Geometric and energetic properties of Al-doped Sin (n = 2-21) clusters: FP-LMTO-MD calculations
Keywords: 36.40.-c; 71.15.-m; 61.46.-w; Al-doped Si cluster; Binding energy; Impurity atom;
Improving electroless Cu via filling with optimized Pd activation
Keywords: 61.46.-w; 68.55.Ac; Palladium activation; Electroless copper; Via filling;
Microstructure development in Cr–Al–Si–N nanocomposites deposited by cathodic arc evaporation
Keywords: 61.10.Nz; 61.46.-w; 61.82.Rx; 62.20.Dc; 68.37.-d; 68.37.Lp; 68.55.-a; 68.55.Jk; 68.65.-kCathodic arc evaporation; Cr–Al–Si–N; Nanocomposites; XRD; HRTEM