Keywords: طیف سنجی از دست دادن انرژی الکترون; Atomic resolution imaging; Electron energy-loss spectroscopy; Energy-dispersive X-ray analysis; Energy-filtered transmission electron microscopy; Elemental mapping;
مقالات ISI طیف سنجی از دست دادن انرژی الکترون (ترجمه نشده)
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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.
Keywords: طیف سنجی از دست دادن انرژی الکترون; Transmission electron microscopy; Electron channelling; Energy-dispersive X-ray spectroscopy; Electron energy-loss spectroscopy; Dopant occupancy;
Keywords: طیف سنجی از دست دادن انرژی الکترون; Zinc ferrite; Inverse structure; Electron energy-loss spectroscopy; First-principles calculation
Keywords: طیف سنجی از دست دادن انرژی الکترون; BOL; beginning-of-life; DMAc; N,N-dimethylacetamide; EDS; energy dispersive X-ray spectroscopy; EELS; electron energy-loss spectroscopy; FWHM; full width at half-maximum; GPTMS; (3-glycidyloxypropyl)-trimethoxysilane; HAADF; high-angle annular dark-field;
Keywords: طیف سنجی از دست دادن انرژی الکترون; Lithium ion secondary battery; Cathode; Lithium iron phosphate; Scanning transmission electron microscopy; Electron energy-loss spectroscopy; Path dependence;
Keywords: طیف سنجی از دست دادن انرژی الکترون; BM; Bending magnet; CT; Computed tomography; EDX; Energy-dispersive X-ray spectroscopy; EELS; Electron energy-loss spectroscopy; FT-IR; Fourier-transform infrared spectroscopy; IBA; Ion beam analysis; LA-ICP-OES/MS; Laser-ablation inductively-coupled plas
Keywords: طیف سنجی از دست دادن انرژی الکترون; Atom probe tomography; Interfaces; Reconstruction artifacts; Cross-correlation microscopy; Scanning transmission microscopy; Electron energy-loss spectroscopy; Thin films; Multilayers
Keywords: طیف سنجی از دست دادن انرژی الکترون; In situ transmission electron microscopy (TEM); Electron energy-loss spectroscopy; Oxidation; Kinetics; Diffusion;
Keywords: طیف سنجی از دست دادن انرژی الکترون; EM; electron microscopy; TEM; transmission electron microscopy; SEM; scanning electron microscopy; CCD; charge-coupled device; SE; secondary electron; BSE; backscattered electrons; TSEM; transmission scanning electron microscopy; STEM; scanning transmissi
Characterization of single-atom catalysts by EELS and EDX spectroscopy
Keywords: طیف سنجی از دست دادن انرژی الکترون; STEM; Catalyst analysis; Adatom motion; Energy-dispersive X-ray spectrometry; Electron energy-loss spectroscopy;
Investigation of Ti0.54Al0.46/Ti0.54Al0.46N multilayer films deposited by reactive gas pulsing process by nano-indentation and electron energy-loss spectroscopy
Keywords: طیف سنجی از دست دادن انرژی الکترون; TiAl-based alloy/nitride multilayer films; Reactive gas pulsing process; Nano-indentation; X-ray diffraction; Electron energy-loss spectroscopy;
Electron energy-loss and soft X-ray emission spectroscopy of electronic structure of MgB4
Keywords: طیف سنجی از دست دادن انرژی الکترون; Metal borides; Boron cluster; Electron energy-loss spectroscopy; Soft X-ray emission spectroscopy; DFT calculation;
High efficiency core-loss EELS analyzing from the viewpoint of chemometrics
Keywords: طیف سنجی از دست دادن انرژی الکترون; Electron energy-loss spectroscopy; Chemometrics; Chemical composition; Vicinal interface;
Low dose inflammatory potential of silica particles in human-derived THP-1 macrophage cell culture studies - Mechanism and effects of particle size and iron
Keywords: طیف سنجی از دست دادن انرژی الکترون; Silica; Nanoparticles; Iron; Inflammation; THP-1; Low dose; BET; Brunauer-Emmett-Teller; DPPP; Diphenyl-1-pyrenylhosphine; DTPA; Diethylene triamine pentaacetic acid; DLS; Dynamic Light Scattering; D609; Tricychodecan-9-yl-xanthate; EDX; Energy-Dispersive
An experimental investigation on the effective electron mass in InGaO3(ZnO)3 by valence electron energy-loss spectroscopy
Keywords: طیف سنجی از دست دادن انرژی الکترون; Transparent conducting oxide; Orientation (in)dependency; Effective electron mass; Electron energy-loss spectroscopy; Dielectric function;
Structure analysis of topmost layer of CNx after repeated sliding using scanning transmission electron microscopy electron energy-loss spectroscopy
Keywords: طیف سنجی از دست دادن انرژی الکترون; Carbon nitride; Scanning transmission electron microscopy; Electron energy-loss spectroscopy; Plasmon peak; Density; Microscopic structural change;
Transmission electron microscopy of bulk specimens over 10 µm in thickness
Keywords: طیف سنجی از دست دادن انرژی الکترون; High-voltage electron microscopy; Electron energy-loss spectroscopy; Bulk nanostructure; Dislocation; Chromatic aberration;
Measurement of the dielectric function of α-Al2O3 by transmission electron microscopy – Electron energy-loss spectroscopy without Cerenkov radiation effects
Keywords: طیف سنجی از دست دادن انرژی الکترون; Dielectric function; Electron energy-loss spectroscopy; Kramers–Kronig analysis; Difference method
Reduction in sintering temperature for flash-sintering of yttria by nickel cation-doping
Keywords: طیف سنجی از دست دادن انرژی الکترون; Yttria; Sintering; External electric field; Electron energy-loss spectroscopy; Flash-sintering;
Electron energy loss spectroscopy analysis of the interaction of Cr and V with MWCNTs
Keywords: طیف سنجی از دست دادن انرژی الکترون; Transmission electron microscopy; Interfaces; Chromium; Vanadium nitride; Carbon nanotubes; Electron energy-loss spectroscopy;
The sp2 and sp3 fractions of unknown carbon materials: electron energy-loss near-edge structure analysis of C-K spectra acquired under the magic-angle condition by the electron nanobeam technique
Keywords: طیف سنجی از دست دادن انرژی الکترون; C materials; C hybridization; Transmission electron microscopy; Electron energy-loss spectroscopy; Nanobeam electron diffraction; Magic-angle condition; C60;
Vibrational-loss EELS and the avoidance of radiation damage
Keywords: طیف سنجی از دست دادن انرژی الکترون; Electron energy-loss spectroscopy; Radiation damage; Phonons; STEM; Monochromator; Vibrational energy loss;
Carbon-metal interfaces analyzed by aberration-corrected TEM: How copper and nickel nanoparticles interact with MWCNTs
Keywords: طیف سنجی از دست دادن انرژی الکترون; Transmission electron microscopy; Interfaces; Copper; Nickel; Carbon nanotubes; Electron energy-loss spectroscopy;
Observation of anisotropic microstructural changes during cycling in LiNi0.5Co0.2Mn0.3O2 cathode material
Keywords: طیف سنجی از دست دادن انرژی الکترون; Li ion secondary battery; Cathode; Microstructural changes; Transmission electron microscopy; Electron energy-loss spectroscopy;
Electrical conductivity and grain boundary composition of Gd-doped and Gd/Pr co-doped ceria
Keywords: طیف سنجی از دست دادن انرژی الکترون; Doped ceria; Spray drying; Impedance spectroscopy; Grain boundary; Scanning transmission electron microscopy; Electron energy-loss spectroscopy
Characterization of grain-boundary phases in Li7La3Zr2O12 solid electrolytes
Keywords: طیف سنجی از دست دادن انرژی الکترون; Transmission electron microscopy; Grain-boundary phases; Electron energy-loss spectroscopy; Scanning electron microscopy; Lithium-ion battery;
Two-phase separation in a lithiated spinel Li4Ti5O12 crystal as confirmed by electron energy-loss spectroscopy
Keywords: طیف سنجی از دست دادن انرژی الکترون; Li-ion battery; Li4Ti5O12; Single-crystalline study; Two-phase separation; Electron energy-loss spectroscopy;
The development of a 200Â kV monochromated field emission electron source
Keywords: طیف سنجی از دست دادن انرژی الکترون; Monochromator; Wien filter; Aberration correction; Electron energy-loss spectroscopy; High-resolution imaging; Energy resolution;
Nano-scale simultaneous observation of Li-concentration profile and Ti-, O electronic structure changes in an all-solid-state Li-ion battery by spatially-resolved electron energy-loss spectroscopy
Keywords: طیف سنجی از دست دادن انرژی الکترون; Li-ion battery; Li distribution; Chemical reaction; In situ formed electrode; Electron energy-loss spectroscopy
TEM preparation methods and influence of radiation damage on the beam sensitive CaCO3 shell of Emiliania huxleyi
Keywords: طیف سنجی از دست دادن انرژی الکترون; Transmission electron microscopy; Sample preparation; Electron energy-loss spectroscopy; Radiation damage; Calcium carbonate; Emiliania huxleyi
Solid solution effects in the Ti2Al(CxNy) MAX phases: Synthesis, microstructure, electronic structure and transport properties
Keywords: طیف سنجی از دست دادن انرژی الکترون; MAX phases; Solid solution; Resistivity; Electron energy-loss spectroscopy; Band structure calculations;
Observation of the defect states in individual Co-doped ZnO dilute magnetic semiconducting nanostructures by electron energy-loss spectroscopy
Keywords: طیف سنجی از دست دادن انرژی الکترون; Defects; Electron energy-loss spectroscopy; Transmission electron microscopy; Dilute magnetic semiconductors
Nanoscale compositional changes during first delithiation of Si negative electrodes
Keywords: طیف سنجی از دست دادن انرژی الکترون; Li-ion battery; Silicon electrode; Nano-analysis; Li–Si alloy; Electron energy-loss spectroscopy; Homogeneity
Structure analysis of aluminium silicon manganese nitride precipitates formed in grain-oriented electrical steels
Keywords: طیف سنجی از دست دادن انرژی الکترون; Grain-oriented electrical steel; Aluminium nitride; Precipitate; Transmission electron microscopy; Electron energy-loss spectroscopy
Electron energy-loss spectroscopy investigation of dopant homogeneity in Tb-doped Y2O3 nanoparticles prepared by solution combustion synthesis
Keywords: طیف سنجی از دست دادن انرژی الکترون; Y2O3:Tb; Nanoparticle; Electron energy-loss spectroscopy; Dopant homogeneity; Solution combustion
High energy-resolution electron energy-loss spectroscopy analysis of dielectric property and electronic structure of hexagonal diamond
Keywords: طیف سنجی از دست دادن انرژی الکترون; Hexagonal diamond; Electron energy-loss spectroscopy; Dielectric properties; Band structure; Optical properties
Oxidation state and chemical shift investigation in transition metal oxides by EELS
Keywords: طیف سنجی از دست دادن انرژی الکترون; Chemical shift; Oxidation state; Transition metal; Electron energy-loss spectroscopy;
Site occupancy determination of Eu/Y doped in Ca2SnO4 phosphor by electron channeling microanalysis
Keywords: طیف سنجی از دست دادن انرژی الکترون; Rare-earth dopant; Transmission electron microscopy; Energy-dispersive X-ray analysis; Electron energy-loss spectroscopy; Electron channeling
Degradation analysis of a Ni-based layered positive-electrode active material cycled at elevated temperatures studied by scanning transmission electron microscopy and electron energy-loss spectroscopy
Keywords: طیف سنجی از دست دادن انرژی الکترون; Lithium ion secondary battery; Cathode; Capacity fading; Scanning transmission electron microscopy; Electron energy-loss spectroscopy
Analysis of Cu(In,Ga)(S,Se)2 thin-film solar cells by means of electron microscopy
Keywords: طیف سنجی از دست دادن انرژی الکترون; Cu(In,Ga)(S,Se)2 solar cells; Electron microscopy; Electron backscatter diffraction; Electron-beam-induced current; Electron energy-loss spectroscopy; Electron holography
Characterization of the interface between the Hf-based high-k thin film and the Si using spatially resolved electron energy-loss spectroscopy
Keywords: طیف سنجی از دست دادن انرژی الکترون; High-k dielectric; Interface; Electron energy-loss spectroscopy; HfO2; HfAlO
Quantitative determination of site occupancy of multi-rare-earth elements doped into Ca2SnO4 phosphor by electron channeling microanalysis
Keywords: طیف سنجی از دست دادن انرژی الکترون; Rare-earth dopant; Transmission electron microscopy; Energy-dispersive X-ray analysis; Electron energy-loss spectroscopy; Electron channeling
Spectroscopic characterizations of individual single-crystalline GaN nanowires in visible/ultra-violet regime
Keywords: طیف سنجی از دست دادن انرژی الکترون; Scanning transmission electron microscope; Electron energy-loss spectroscopy; GaN; Surface modes
Characterization of chemical composition and electronic structure of Pt/YSZ interfaces by analytical transmission electron microscopy
Keywords: طیف سنجی از دست دادن انرژی الکترون; X-ray energy dispersive spectroscopy; Electron energy-loss spectroscopy; Electron energy-loss near edge structure; ζ-factor method; Spatial difference technique; Ab-initio multiple scattering calculations;
Preparation and structural characterization of SnO2 and GeO2 methanol steam reforming thin film model catalysts by (HR)TEM
Keywords: طیف سنجی از دست دادن انرژی الکترون; Electron microscopy; Electron energy-loss spectroscopy; SnO; Thin films; Catalysis;
The GIF Quantum, a next generation post-column imaging energy filter
Keywords: طیف سنجی از دست دادن انرژی الکترون; Electron microscopy; Electron energy-loss spectroscopy; Energy-filtered imaging; Post-column imaging filter; Spectrum imaging; ESI(S)TEM, (scanning) transmission electron microscopy; EELS, electron energy-loss spectroscopy; EFTEM, energy filtered transmis
EELS detection limits revisited: Ruby — a case study
Keywords: طیف سنجی از دست دادن انرژی الکترون; Electron energy-loss spectroscopy; Detection limit; Multiple linear least squares fitting; Modulation transfer function; Detection quantum efficiencyCCD, Charge-coupled device; DM, Digital Micrograph; DQE, Detection quantum efficiency; EDX, Energy-dispers
Quantitative nanoscale water mapping in frozen-hydrated skin by low-loss electron energy-loss spectroscopy
Keywords: طیف سنجی از دست دادن انرژی الکترون; Electron energy-loss spectroscopy; EELS; Cryo-TEM; Skin; Water; Radiation damage
Initial oxidation of MgO-supported Rh nanoparticles studied by TEM
Keywords: طیف سنجی از دست دادن انرژی الکترون; Rhodium; Nanoparticles; Magnesium oxide; Surface oxidation; High-resolution transmission electron microscopy; Electron energy-loss spectroscopy;
Complementary techniques for the characterization of thin film Ti/Nb multilayers
Keywords: طیف سنجی از دست دادن انرژی الکترون; 68.37.-d; 68.65.-k; 68.55.-a; 79.20.-mThin films; X-ray energy-dispersive spectroscopy; Electron energy-loss spectroscopy; 3D atom probe tomography