Keywords: 61.48. + c; Fullerene; Ion irradiation; High resolution transmission electron microscopy; 61.48.+c; 61.80.âx; 68.37.Lp;
مقالات ISI 61.48. + c (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Calculated energy loss of a swift fullerene ion beam in InP
Keywords: 61.48. + c; 34.50.Bw; 36.40.âc; 61.48.+c; Energy loss; Stopping power; Clusters; Vicinage effects; Fullerene;
Carbon-coated YC2 nanocapsules synthesized by arc-discharge in methane
Keywords: 61.48. + c; 61.46.Df; 61.48.+c; 81.07.âb; Nanoparticles/nanocapsules; Arc-discharge; Core-shell structure; Transition temperature; Raman spectrum;
Ab initio investigation of the possibility of formation of endohedral complexes between H2 molecules and B-, N- and Si-doped C60 fullerenes
Keywords: 61.48. + c; 61.48.+c; 68.43.BC; 84.60.−hSi-doped fullerenes; Hydrogen storage; Endohedral complexes; Ab initio calculations
Molecular dynamics study of effects of sp3 interwall bridging upon torsional behavior of double-walled carbon nanotube
Keywords: 61.48. + c; 61.48.+c; 31.15.Qg; 62.25.+g; Molecular dynamics simulation; Carbon nanotubes; sp3 interwall bridging; Torsional behavior;
Stability of single-walled carbon nanopeapods under combined axial compressive load and external pressure
Keywords: 61.48. + c; 61.48.+c; 46.32.+x; 46.70.De; Carbon nanopeapod; Elastic buckling; Axial compression; External pressure;
Effects of argon flow rate and reaction temperature on synthesizing single-walled carbon nanotubes from ethanol
Keywords: 61.48. + c; 78.30.Na; 61.48.+c; 82.65.PaSingle-walled carbon nanotubes; Synthesize; Argon flow rate; Reaction temperature
High-field electron emission of carbon nanotubes grown on carbon fibers
Keywords: 61.48. + c; 61.48.+c; 79.70.+q; Carbon fibers; Carbon nanotubes; Floating catalyst; Field emission;
First principles study of Eu doped carbon nanotubes
Keywords: 61.48. + c; 73.22.-f; 75.75.+a; 61.48.+c; 71.15.NcEu doped carbon nanotube; Geometric and electronic structures; First principles
Titanium-functional group complexes for high-capacity hydrogen storage materials
Keywords: 61.48. + c; 73.22.-f; 68.43.Bc; 71.15.Nc; 61.48.+c; 84.60.VeA. Titanium; A. Functional groups; D. Hydrogen storage
Synthesis and physical properties of MgxC70  (1<xâ¤5)
Keywords: 61.48. + c; 61.48.+c; 71. 20. Tx; A. Fullerenes; B. Chemical synthesis; E. Electron paramagnetic resonance;
Optimization for field emission from carbon nanotubes array by Fowler–Nordheim equation
Keywords: 61.48. + c; 61.48.+c; 79.20.Ap; 79.70.+qCarbon nanotubes (CNTs); Field emission; Fowler–Nordheim equation; Emission current density
Raman study on single-walled carbon nanotubes and multi-walled carbon nanotubes with different laser excitation energies
Keywords: 61.48. + c; 78.30.Na; 61.48.+c; 82.65.PaSingle-walled carbon nanotubes; Multi-walled carbon nanotubes; Raman spectroscopy
Symmetry in electron diffractions from helical structures
Keywords: 61.48. + c; 61.14.Dc; 87.15.âv; 61.48.+c; 81.07.De; Electron diffraction; Symmetry; SWCNT; DNA;
Molecular dynamics study of mechanical properties of carbon nanotube-embedded gold composites
Keywords: 61.48. + c; 61.48.+c; 81.05.Ni; 62.25.+gMolecular dynamics simulation; Carbon nanotubes; Carbon nanotube-embedded gold composites
Torsion induced by axial strain of double-walled carbon nanotubes
Keywords: 61.48. + c; 61.48.+c; 31.15.Qg; 62.25.+gCarbon nanotubes; Molecular dynamics; Mechanical properties
Theoretical impacts of terminal atoms (C, B, N, and P) on fragments of single-walled hetero carbon nanotubes
Keywords: 61.48. + c; 61.46.Fg; 61.48.+c; 31.15.Ct; 03.67.LxCarbon nanotube; Terminal atom; SCF-MO calculation; AM1; C72N36; C72N18B18; C72P36; C108H36
Kinetics of 2D-3D transformations of carbon nanostructures
Keywords: 61.48. + c; 61.46.âw; 61.48.+c; Nanotube; Fullerene; Defects; Folding;
Quantum chemical treatment of Li/Li+ doped defected carbon nanocapsules
Keywords: 61.48. + c; 31.15.Ct; 31.15.Ew; 61.48.+c; Defected carbon nanocapsule; Li/Li+; PM3 and DFT method; MD simulations;
Theoretical study on structure of boron nitride fullerenes
Keywords: 61.48. + c; 61.48.+c; 81.05.Tp; 61.43.Bn; 82.20.Wt; Hexagonal boron nitride; Fullerene; Stillinger-Weber potential;
Hardness of high-pressure high-temperature treated single-walled carbon nanotubes
Keywords: 61.48. + c; 61.10.Nz; 61.48.+c; 62.50.+p; 68.60.Bs; Carbon nanotubes; High pressure; Nanoindentation; X-ray diffraction;
Site selectivities of alkali ions in CsRb2C60 and Cs2RbC60 superconductors
Keywords: 61.48. + c; 61.48.+c; 74.70.Wz; 64.60.-iA. Fullerenes; C. Crystal structure and symmetry
Interaction induced absorption of rare gas mixtures physisorbed on nanotubes and fullerenes - Computer simulation study
Keywords: 61.48. + c; 36.40.Mr; 67.70.+n; 61.46.Fg; 61.48.+c; Molecular dynamics; Nano-clusters; Adsorption;
Pressure-temperature phase diagram of the rotor-stator compound C60-cubane
Keywords: 61.48. + c; 61.48.+c; 62.50.+p; 78.30.-j; 81.05.Tp; A: Fullerenes; C: Raman spectroscopy; C: X-ray diffraction; C: High pressure;
Single-walled carbon nanotube fibers, films and balls
Keywords: 61.48. + c; 39.10.+j; 61.48.+c; 81.05.TP; 81.70.Jb; A. Carbon nanotube; B. Scanning electron microscope;
keV Ag ion irradiation induced damage on multiwalled carbon nanotubes
Keywords: 61.48. + c; 81.07.De; 61.80.Jh; 61.48.+c; 68.37.Lp; 79.60.−iNanotubes; Ion irradiation effects; Fullerene and related materials; Transmission electron microscopy (TEM); X-ray photoelectron spectroscopy (XPS)
Adsorption and manipulation of carbon onions on highly oriented pyrolytic graphite studied with atomic force microscopy
Keywords: 61.48. + c; 61.48.+c; 68.65.âk; 81.16.Ta; 68.37.Ps; Atomic force microscopy (AFM); Carbon onions; Adsorption properties; Nano-scale manipulation;
Carbon aligned nanocolumns by RF-Magnetron sputtering: The influence of the growth parameters
Keywords: 61.48. + c; 61.48.+c; 61.46.+w; 81.15.Cd; Carbon; Nitrogen; Nanostructures; RF magnetron sputtering;
Si-coated single-walled carbon nanotubes under axial loads: An atomistic simulation study
Keywords: 61.48. + c; 61.48.+c; 62.25.+g; 62.20.Dc; 31.15.QgMolecular dynamics simulation; Carbon nanotubes; Buckling strain
Structural and electronic properties of lithium endohedral doped carbon nanocapsules
Keywords: 61.48. + c; 61.48.+c; 31.15.Ct; 31.15.QgCarbon nanocapsule; Lithium doping; PM3 method; MD simulations
Strain in Jahn-Teller systems as a precursor to co-operative interactions
Keywords: 61.48. + c; 31.30.Gs; 61.48.+c; Jahn-Teller effect; Vibronic coupling; Co-operative interactions; C602-; Uniaxial strain;
A study of the quadratic p2 â h Jahn-Teller system
Keywords: 61.48. + c; 31.30.Gs; 61.48.+c; Jahn-Teller effect; Vibronic coupling; Electron-doping; C602-;
Pseudorotation in fullerene anions
Keywords: 61.48. + c; 61.48.+c; 31.30.Gs; Jahn-Teller effect; Pseudorotation; Fullerene; C60-;
The Jahn-Teller effect in (hu+)2âhg systems
Keywords: 61.48. + c; 31.30.Gs; 61.48.+c; 78.30.Na; Jahn-Teller effect; Vibronic coupling; Hole-doping; C602+;
On the roughness of single- and bi-layer graphene membranes
Keywords: 61.48. + c; 81.05.Uw; 82.45.Mp; 61.14.Lj; 61.48.+c; 68.55.-a; 46.70.HgA. Thin films; B. Nanofabrication; C. Transmission electron microscopy; D. Mechanical properties
Thermal conductivity of magnetically aligned carbon nanotube buckypapers and nanocomposites
Keywords: 61.48. + c; 61.48.+c; 65.80.+n; 66.70.+fNanotubes; Buckypaper; Nanocomposites; Alignment; Thermal conductivity
Infrared studies of swift heavy ion irradiated C60 thin films
Keywords: 61.48. + c; 61.48.+c; 61.80.Jh; 87.64.JeFullerene; Ion irradiation; Infrared and Raman spectroscopy
New type-I clathrates with ordered Eu distribution
Keywords: 61.48. + c; 61.48.+c; 75.50.-y; 71.27.+a; Clathrates; Eu;
Comparative study of lower fullerenes doped with boron and nitrogen
Keywords: 61.48. + c; 61.48.+c; 81.05.TpA. Fullerenes; D. Electronic states
Mechanism of single-walled carbon nanotube growth on natural magnesite
Keywords: 61.48. + c; 61.10. Ht; 61.48.+c; A. Fullerenes; C. EXAFS;
Molecular dynamics study of SWNT growth on catalyst particles without temperature gradients
Keywords: 61.48. + c; 31.15.Qg; 61.48.+c; 68.55.Ac; 65.80.+n; Single-walled carbon nanotubes; Carbon nanotubes; Molecular dynamics; Vapor-liquid-solid model; Chemical vapor deposition; Temperature gradient;
Energetic stability of B–C–N monolayer
Keywords: 61.48. + c; 71.20.Tx; 71.15.Mb; 61.48.+c
STM study of the initial stages of C60 adsorption on the Pt(1 1 0)-(1 Ã 2) surface
Keywords: 61.48. + c; 61.48.+c; 68.37.Ef; Fullerene; Platinum; Scanning tunnelling microscopy;
Ring formation from the direct floating catalytic chemical vapor deposition
Keywords: 61.48. + c; 61.48.+c; 81.16.Hc; Single-walled carbon nanotube; Rings; Chemical vapor deposition;
Large-scale aligned carbon nanotubes films
Keywords: 61.48. + c; 81.05.Tp; 61.48.+c; 81.15.Lm; 81.07.DeCarbon nanotubes; Large scale; Aligned; Atomic force microscope; Polarized Raman spectra
Ab initio studies of elastic properties and electronic structures of C and BN nanotubes
Keywords: 61.48. + c; 61.48.+c; 71.20.Tx; 73.22.--fAb initio; CRYSTAL-03; SWNTs; Elastic properties; Electronic structures
Structure and thermal properties of supported catalyst clusters for single-walled carbon nanotube growth
Keywords: 61.48. + c; 61.48.+c; 61.46.+w; 81.10.Aj; Supported cluster; MD simulation; Surface diffusion;
Structure and properties of pulsed-laser deposited carbon nitride thin films
Keywords: 61.48. + c; 61.48.+c; 79.60.J; 77.84.Dy; 82.80.PvCarbon nitride; Nanostructures; Laser ablation; X-ray photoelectron spectroscopy
Analytic equation of state for FCC C60 solid based on analytic mean-field potential approach
Keywords: 61.48. + c; 64.10.+h; 61.48.+c; 50.70.Ce; 62.50.+pEquation-of-state; Fullerene; Thermodynamic properties; Anharmonicity
The structure and electronic property of BN nanotube
Keywords: 61.48. + c; 61.46.+w; 61.48.+c; 81.07.DeBN nanotube; Structure; Binding energies; Band gap