Keywords: 61.46 + w; 61.80.Jh; 61.82.âd; 61.72.Ww; 61.46.+w; Ion beams; Defects in solids; Nanoparticles; Optical techniques; Lithium niobate; Alkali iodides; Silicon; Indium tin oxide;
مقالات ISI 61.46 + w (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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Keywords: 61.46 + w; 42.62.âb; 61.46.+w; 78.66.âw; Nanoparticles; Laser; Ablation; Liquid; Brass; Bronze;
Keywords: 61.46 + w; 61.46.+w; 78.67.Hc; 32.50.+dDecay rate; Fluorescence rate; Metallic nanoparticle; Quantum yield
High photoactive TiO2/SnO2 nanocomposites prepared by laser pyrolysis
Keywords: 61.46 + w; 82.33.Vx; 61.46.+w; 78.67.-n; Laser pyrolysis; Nanoparticles; TiO2/SnO2 nanocomposites; Band gap energy; UV-vis spectroscopy;
Enhancement of electron field emission of vertically aligned carbon nanotubes by nitrogen plasma treatment
Keywords: 61.46 + w; 61.46.+w; 79.70.+qPlasma nanoscience; Plasma made nanostructures; Carbon nanotubes
Effect of zinc nitrate concentration on the structural and the optical properties of ZnO nanostructures
Keywords: 61.46 + w; 61.46.+w; 68.65.âk; 78.55.Et; ZnO nanorods; ZnO nanodisks; Zn(NO3)2; Structural property; Optical property;
Light emission from nanocrystalline silicon clusters embedded in silicon dioxide: Role of the suboxide states
Keywords: 61.46 + w; Silicon nanoclusters; Photoluminescence; Cluster-matrix interface; Ultrasound; 61.46.+w; 73.20.âr; 78.67.ân; 79.60.Jv; 81.07.âb;
Visible laser microfabrication of transparent plastic using Au nanoparticles-dispersed polymer film
Keywords: 61.46 + w; 52.38.Mf; 61.46.+w; 81.07.−b; 82.35.Np; 85.40.HpNanoparticle; Laser processing; Polymer film; Thermal property
Growth of carbon nanofibers on aligned zinc oxide nanorods and their field emission properties
Keywords: 61.46 + w; 61.46.+w; 73.63.âb; 79.70.+q; CNT; ZnO nanorods; Field emission;
Fabrication of conical shape-Si particle by pulsed laser ablation
Keywords: 61.46 + w; 61.46.+w; Laser; Vacuum pressure; Pulsed laser ablation; Si particles; Ring shape-Si; Conical shape-Si;
Meltdown of palladium nanoparticles due to prolonged hydrogen ion bombardment
Keywords: 61.46 + w; 61.46.+w; 61.80.JhNanoscale materials: clusters, nanoparticles, nanotubes and nanocrystals; Ion radiation effects
Molecular dynamics study of effects of radius and defect on oscillatory behaviors of C60–nanotube oscillators
Keywords: 61.46 + w; 61.46.+w; 62.20.Qp; 62.25.+gMolecular dynamics simulation; Carbon nanotube; Oscillator
Er+ implantation in SnO2:SiO2 layers: Structure changes and light emission
Keywords: 61.46 + w; 81.07.âb; 68.55.âa; 61.46.+w; 61.80.âx; Er ion implantation; TEM; SnO2:SiO2; Nanoclusters;
Surface defect states of CdTexS1 − x quantum dots
Keywords: 61.46 + w; 61.46.+w; 68.65.Hb; 78.67.HeCdTexS1 − x quantum dots; Surface defect state; Surface passivation
Enhancement of optical nonlinearity in binary metal–nanoparticle arrays
Keywords: 61.46 + w; 42.70.-a; 61.46.+w; 81.15.Fg; 78.67.-nNanoparticle arrays; Optical nonlinearity; Figure of merit; z-scan
Study of formation of Cu nanoparticle using Swift heavy ions
Keywords: 61.46 + w; 61.46.+w; 61.72.−y; 61.80; 78.20.−eSwift heavy ion irradiation; Fused silica; Nanoparticles; Optical absorption; Mie's theory GAXRD; TEM
Green luminescence from Si1−xCx nanoparticles synthesized by laser annealing of Si nanoparticles and C60 thin films
Keywords: 61.46 + w; 61.46.+w; 61.48.+cSi nanoparticles; C60 thin films; Pulsed laser ablation; Green photoluminescence; Multilayer films
Control of electron–phonon dynamics by quantum confinement in isolated Y2SiO5:Pr3+ nanocrystal
Keywords: 61.46 + w; 61.46.+w; 36.40.VzNanocrystal; Fluorescence spectra; Fluorescence decay; Vibrational modes; Cluster-environment interaction
Nonlinear blue upconversion luminescence in Gd2O3: Er3+/Yb3+ nanowires
Keywords: 61.46 + w; 61.46.+w; 78.55.-m; A. Nanostructures; E. Luminescence;
Frequency change by inter-walled length difference of double-wall carbon nanotube resonator
Keywords: 61.46 + w; 61.46.+w; 66.30.Pa; 83.10.RsA. Nanotube; C. Molecular dynamics simulation; D. Resonance; D. Mechanical properties
Shape tailoring of hexagonally ordered triangular gold nanoparticles with nanosecond-pulsed laser light
Keywords: 61.46 + w; 61.46.+w; 42.79.Vb; 52.38.Bv; 78.67.Hc; Gold nanoparticles; ns-Pulsed laser light; Hexagonal ordered array; Nanosphere lithography;
Using GA–ANN algorithm to optimize soft magnetic properties of nanocrystalline mechanically alloyed Fe–Si powders
Keywords: 61.46 + w; 61.46.+w; 41.20.-q; 75.47.Np; 75.50.Bb; 75.75.ta; 61.43.GtFe–Si powders; Artificial neural network; Genetic algorithm; Coercivity; Nanocrystalline
Capacitive humidity-sensing properties of electron-beam-evaporated nanophased WO3 film on silicon nanoporous pillar array
Keywords: 61.46 + w; 61.46.+w; 68.03.Hj; 73.90.+fWO3; Silicon nanoporous pillar array (Si-NPA); WO3/Si-NPA; Capacitive humidity sensor
Theoretical investigation on the structural stability of GaP nanowires with {111} facets
Keywords: 61.46 + w; 81.07.Bc; 81.10.âh; 61.46.+w; Nanowires; GaP; Structural stability; {111} Facets; {11¯0} Facets;
Effect of crystal structure on adsorption behaviors of nanosized TiO2 for heavy-metal cations
Keywords: 61.46 + w; 61.46.+w; 68.10.Jy; 68.45.Da; 81.05.Ys; 82.65.-iAdsorption; Heavy-metal; Nanosized TiO2; Crystal structure
Plasticity and ab initio characterizations on Fe4N produced on the surface of nanocrystallized 18Ni-maraging steel plasma nitrided at lower temperature
Keywords: 61.46 + w; 61.10.Nz; 61.43.Bn; 61.46.+w; 62.20.Dc; 62.20.Fe; 62.25.+g; 71.20.Be; Nanocrystallized 18Ni-maraging steel; Plasma nitriding; γâ²-Fe4N; Mechanical properties; First-principles calculations;
Formation of single-crystal SrTiO3 dendritic nanostructures via a simple hydrothermal method
Keywords: 61.46 + w; 61.46.+w; 68.37.Lp; 77.84.Dy; 81.07.Bc; 81.10.DnA1. Characterization; A1. Crystal morphology; A1. Crystal structure; A1. Nanostructures; A2. Hydrothermal crystal growth; B1. Strontium titanate
Quantum Size Effect and very localized random laser in ZnO@mesoporous silica nanocomposite following a two-photon absorption process
Keywords: 61.46 + w; 81.05.Zx; 78.45.+h; 78.55.−m; 78.30.Fs; 78.67.De; 78.67.Hc; 78.67.It; 78.55.Mb; 72.80.Tm; 61.43.Gt; 61.46.+w; 61.66.FnII–VI semiconductors; Laser–matter interactions; Optical spectroscopy; STEM/TEM; TEM/STEM; Powders; Nano-composites; Nanoparticles; Quant
The effect of Ni catalytic nanoparticle on the growth of carbon nanotubes: A perspective from nanotribological characterization
Keywords: 61.46 + w; 61.46.+w; 46.55+d; 81.40.Pq; 39.25.+kNanoparticles; Carbon nanotubes; Coefficients of friction; Nanoscratch
Carbon nanodot arrays grown as replicas of specially widened anodic aluminum oxide pore arrays
Keywords: 61.46 + w; 85.45.Db; 81.05.Uw; 61.46.+w; Nanodot arrays; Anodic aluminum oxide; Filtered cathodic arc plasma; Field emission;
Field emission properties of electrophoretic deposition carbon nanotubes film
Keywords: 61.46 + w; 79.70.+q; 61.46.+w; 82.45.âh; Carbon nanotubes; Electrophoretic deposition; Field emission; Adhesion;
Synthesis and photoluminescent properties of doped ZnS nanocrystals capped by poly(vinylpyrrolidone)
Keywords: 61.46 + w; 61.46.+w; 61.72.Vv; 78.55.−mZinc sulfide; Semiconductor nanocrystals; Dopants; Photoluminescence; Poly(vinylpyrrolidone)
Large and anisotropic third-order nonlinear optical response from anisotropy-controlled metallic nanocomposites
Keywords: 61.46 + w; 42.65.−k; 42.65.An; 42.70.Nq; 61.46.+w; 78.66.SqNonlinear optics; Metallic nanocomposites; Anisotropy
Surface modification of Ni and Co metal nanowires through MeV high energy ion irradiation
Keywords: 61.46 + w; 61.46.+w; 73.22.−f; 75.75.+aHigh energy ion irradiation; Metal nanowire; Oxidation layer
Structural, cohesive and electronic properties of Ti5Si3 nanotubes
Keywords: 61.46 + w; 61.46.+w; 71.15.Mb; 73.22.−fTi5Si3 nanotubes; Structural; Cohesive; Electronic properties; DFTB simulation
On the structural properties of B–C–N nanotubes
Keywords: 61.46 + w; 61.46.+w; 79.60.Jv; 78.66.JgA. Nanotubes; A. BCN; A. BC2N; C. First-principles method
Insights into effects of annealing on microstructure from SnO2 thin films prepared by pulsed delivery
Keywords: 61.46 + w; 68.55.-a; 61.46.+w; 81.15.Fg; 61.72.-YThin film transistors; Crystal growth; Nanocrystals; X-ray diffraction; Laser deposition; Microcrystallinity
Structures and structural evolution of Ptn (n = 15-24) clusters with combined density functional and genetic algorithm methods
Keywords: 61.46 + w; 31.15.Ew; 61.46.+w; 71.15.âm; 73.22.âf; Metals; Nanostructures; Electronic states;
Growth temperature dependence of partially Fe filled MWCNT using chemical vapor deposition
Keywords: 61.46 + w; 61.46.+w; 81.05.Tp; 81.07.−b; 81.07.De; 81.15.GhA1. Nanostructure; A1. Growth model; A1. Characterization; A3. Chemical vapor deposition process; B1. Carbon nanotube; B1. Iron
The morphology of secondary-hardening carbides in a martensitic steel at the peak hardness by 3DFIM
Keywords: 61.46 + w; 61.82.Bg; 61.46.+w; 61.16.FkSecondary-hardening steel; M2C; Three-dimensional field ion microscopy; Atom-probe tomography
Polyol-mediated synthesis of well-dispersed α-NaYF4 nanocubes
Keywords: 61.46 + w; 61.46.+w; 81.07.Bc; 81.10.DnA1. Nanostructures; B1. Nanomaterials; B1. Rare earth compounds; B2. Phosphors
Synthesis and optical properties of high-purity CoO nanowires prepared by an environmentally friendly molten salt route
Keywords: 61.46 + w; 61.46.+w; 72.80.GaA1. Nanostructures; B1. Oxides; B2. Magnetic materials
Short-range order of Cu-Zr metallic glasses
Keywords: 61.46 + w; 61.43.Dq; 61.46.+w; 64.70.Nd; Metallic glasses; Short-range order; Cu-Zr; Reverse Monte-Carlo;
Synthesis, properties, and applications of magnetic iron oxide nanoparticles
Keywords: 61.46 + w; 61.46.+w; 82.Rx; 81.40.−z; 81.16.−c; 75B1. Oxides; B1. Nanomaterials; B2. Magnetic materials; A2. Supercritical fluid technology; A2. Hydrothermal technology
High diffusion length silicon germanium alloy thin films deposited by pulsed rf PECVD method
Keywords: 61.46 + w; 73.61.Jc; 68.37.Lp; 61.46.+w; 78.30.Ly; 81.15.GhGermanium; Silicon; Nanocrystals; Raman scattering; Conductivity; Chemical vapor deposition; Plasma deposition; TEM/STEM; Microcrystallinity; Powders; Nano-clusters; Nano-composites; Nanoparticles; Photoindu
Optical propagation modified by Cu nanoparticle grating fabricated by heavy ion implantation
Keywords: 61.46 + w; Ion implantation; Metal nanoparticle; Grating; Waveguide78.67.Bf; 61.46.+w; 42.79.Gn; 61.72.Ww
Incorporation of nanocrystalline silver on carbon nanotubes by electrodeposition technique
Keywords: 61.46 + w; 61.46.+w; 81.07.BcNanocomposite; Thin films; Deposition
Electrophoresis deposition and field emission characteristics of planar-gate-type electron source with carbon nanotubes
Keywords: 61.46 + w; 61.46.+w; 79.70.+q; 82.45.−hCarbon nanotubes; Field emission; Electrophoresis
Are deformed modes still Raman active for single-wall carbon nanotubes?
Keywords: 61.46 + w; 61.46.+w; 62.50.+p; 63.22.+m; Raman active; Symmetry; Correlation; Single-wall carbon nanotubes (SWCNTs); Hydrostatic pressure;
Effect of synthesis temperature on the structure and optical properties of electro-chemically grown GaAs nanocrystals
Keywords: 61.46 + w; 61.46.+w; 81.07.âb; Nanocrystal; Phase transformation; Photoluminescence;