Keywords: لیرولیز لیزری; Laser pyrolysis; Core-shell nanoparticle; Silicon; Carbon; Lithium-ion battery;
مقالات ISI لیرولیز لیزری (ترجمه نشده)
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Keywords: لیرولیز لیزری; Carbon nanotubes; Graphene foam; Polyimide; Laser pyrolysis; Surface patterning;
Keywords: لیرولیز لیزری; Tin; Laser pyrolysis; Nanopowder; Li-ion batteries; 61.46.Df; 68.35.bd; 81.16.Mk; 81.07.Bc;
Keywords: لیرولیز لیزری; Laser pyrolysis; Iron-based magnetic nanocomposites; Titania; 81.16.Mk; 75.75.Fk; 85.70.âw; 81.07.Wx; 61.46.Df;
Keywords: لیرولیز لیزری; Graphene layer; Laser pyrolysis; Dilution gases;
Keywords: لیرولیز لیزری; Magnetic nanoparticles; Drug delivery; Laser pyrolysis; Nanotoxicity; Iron oxide nanoparticle; Violamycine B1; VB1;
Keywords: لیرولیز لیزری; Titanium oxynitride; TiO2; EELS; Spectrum imaging; EXAFS; XANES; Laser pyrolysis;
Prepare SiTiOC ceramic coatings by laser pyrolysis of titanium organosilicon compound
Keywords: لیرولیز لیزری; Laser pyrolysis; Titanium organosilicon compound; Ceramic coating;
Study of phase development and thermal stability in as synthesized TiO2 nanoparticles by laser pyrolysis: ethylene uptake and oxygen enrichment
Keywords: لیرولیز لیزری; TiO2 nanoparticles: Anatase; Rutile; Laser pyrolysis; Thermal annealing; Oxygen rich titania;
Synthesis of SiC ceramics from polysilazane by laser pyrolysis
Keywords: لیرولیز لیزری; Laser pyrolysis; Organic macromolecule polymer; Ceramic precursor;
High photoactive TiO2/SnO2 nanocomposites prepared by laser pyrolysis
Keywords: لیرولیز لیزری; 82.33.Vx; 61.46.+w; 78.67.-n; Laser pyrolysis; Nanoparticles; TiO2/SnO2 nanocomposites; Band gap energy; UV-vis spectroscopy;
Laser pyrolysis of an organosilazane-based glass/ZrO2 composite coating system
Keywords: لیرولیز لیزری; Polymer-derived ceramic; Laser pyrolysis; Nd:YAG laser; Tetragonal-stabilized ZrO2; Environmental barrier coating
Synthesis and characterization of polyaniline-Fe@C magnetic nanocomposite powder
Keywords: لیرولیز لیزری; 81.16.Mk; 75.50.Bb; 72.80.Le; 82.80.Fk; Laser pyrolysis; Magnetic nanocomposite; Polyaniline;
Synthesis and layering of Si quantum dots/SiO2 composite films for third generation solar cells
Keywords: لیرولیز لیزری; Silicon quantum dots; Laser pyrolysis; Sol–gel; Spin coating; Quantum confinement; Resistivity
Thermal conductivity, viscosity and surface tension of nanofluids based on FeC nanoparticles
Keywords: لیرولیز لیزری; Nanofluids; Laser pyrolysis; Thermal conductivity; Viscosity; Surface tension
Highly magnetic Fe2O3 nanoparticles synthesized by laser pyrolysis used for biological and heat transfer applications
Keywords: لیرولیز لیزری; 81.16.Mk; 65.80.âg; 87.85.Qr; 87.85.Rs; 82.70.Kj; 75.75.fk; Laser pyrolysis; Ferrofluid; l-DOPA; Low cytotoxicity;
Laser oxidative pyrolysis synthesis and annealing of TiO2 nanoparticles embedded in carbon-silica shells/matrix
Keywords: لیرولیز لیزری; 81.16 Mk; 82.33 Vx; 81.07 Wx; 61.46 Df; 62.23 Kn; 81.16 Hc; Laser pyrolysis; Core-shell nanoparticles; Anatase/rutile mixture;
Effects of carbon and oxygen on the spark plasma sintering additive-free densification and on the mechanical properties of nanostructured SiC ceramics
Keywords: لیرولیز لیزری; Silicon carbide; Nanostructured materials; Laser pyrolysis; Spark plasma sintering
Synthesis and optical properties of TiO2-based magnetic nanocomposites
Keywords: لیرولیز لیزری; Laser pyrolysis; Nanoparticles; Band-gap; Magnetic properties; 81.16.Mk; 75.50.Tt; 78.67.Bf;
One step synthesis of N-doped and Au-loaded TiO2 nanoparticles by laser pyrolysis: Application in photocatalysis
Keywords: لیرولیز لیزری; Laser pyrolysis; Gold; N-doped TiO2; Formic acid degradation; Visible light;
Enhancing the visible light absorption of titania nanoparticles by S and C doping in a single-step process
Keywords: لیرولیز لیزری; Laser pyrolysis; Nanoparticles; C; S-modified TiO2; Band gap energy; UV-Vis spectroscopy; 81.16.Mk; 61.46.Df; 78.67.Bf;
Novel Fe@C-TiO2 and Fe@C-SiO2 water-dispersible magnetic nanocomposites
Keywords: لیرولیز لیزری; 81.16.Mk; 81.20.Fw; 75.75.Fk; 85.70.âw; Laser pyrolysis; Iron-based magnetic nanocomposites; Silica or titania shells;
Structural evolution and optical properties of C-coated TiO2 nanoparticles prepared by laser pyrolysis
Keywords: لیرولیز لیزری; Laser pyrolysis; Nanoparticles; C-doped TiO2; Band gap energy; UV-vis transmission;
Direct photocurrent generation from nitrogen doped TiO2 electrodes in solid-state dye-sensitized solar cells: Towards optically-active metal oxides for photovoltaic applications
Keywords: لیرولیز لیزری; Solid-state dye-sensitized solar cell (DSSC); TiO2 Nanocrystals; Nitrogen doping; Laser pyrolysis; Electron paramagnetic resonance (EPR); Density functional theory (DFT);
Development of TiO2 and TiO2/Fe-based polymeric nanocomposites by single-step laser pyrolysis
Keywords: لیرولیز لیزری; Nanoparticles; TiO2-based polymeric nanocomposites; Laser pyrolysis; Methyl methacrylate; Hexamethyl disiloxane;
Magnetic properties of iron–carbon nanocomposites obtained by laser pyrolysis in specific configurations
Keywords: لیرولیز لیزری; Fe–C nanocomposites; Laser pyrolysis; Mössbauer spectroscopy and magnetometry
Fe-inserted and shell-shaped carbon nanoparticles by cluster-mediated laser pyrolysis
Keywords: لیرولیز لیزری; 82.30.Lp; 81.16.âc; 81.07.âb; 62.23.Pq; Laser pyrolysis; Iron-carbon nanoparticles; Shell-shape nanoparticles;
Laser processing issues of nanosized intermetallic Fe-Sn and metallic Sn particles
Keywords: لیرولیز لیزری; Intermetallics; Nanostructured; FeSn2; Sn; Nanoparticles; Laser pyrolysis;
Development of systems for the laser synthesis of nanoparticles starting from liquid precursors
Keywords: لیرولیز لیزری; Laser pyrolysis; Sensitizer; Nanoparticles; Titania; Anatase; Liquid precursors;
Laser synthesis of magnetic iron–carbon nanocomposites with size dependent properties
Keywords: لیرولیز لیزری; Iron–carbon nanocomposites; Laser pyrolysis; Core–shell nanoparticles; Particle size distribution; Magnetic; Mössbauer spectroscopy
About graphene ribbons development in laser synthesized nanocarbon
Keywords: لیرولیز لیزری; Laser pyrolysis; Graphene; Carbon nanopowders;
Parametric studies on iron-carbon composite nanoparticles synthesized by laser pyrolysis for increased passivation and high iron content
Keywords: لیرولیز لیزری; Iron-carbon composite; Nanoparticles; Laser pyrolysis; Iron pentacarbonyl; Mössbauer spectroscopy;
Recent developments in the formation and structure of tin-iron oxides by laser pyrolysis
Keywords: لیرولیز لیزری; Tin oxide; Nanoparticles; Laser pyrolysis; Fe doped SnO2; Tin-iron oxides; Mössbauer spectroscopy;
Experimental study of the thermal performance of thermosyphon heat pipe using iron oxide nanoparticles
Keywords: لیرولیز لیزری; Nanoparticles; Laser pyrolysis; Thermosyphon heat pipe; Heat transfer rate;
Gas-phase condensation of nanometer- and subnanometer-sized carbon grains and polycyclic aromatic hydrocarbons
Keywords: لیرولیز لیزری; Fullerenes; Carbon onions; PAHs; Gas-phase condensation; Laser ablation; Laser pyrolysis
Controlled manufacturing of nanoparticles by the laser pyrolysis: Application to cementite iron carbide
Keywords: لیرولیز لیزری; Laser pyrolysis; Nanoparticles; Cementite; Iron pentacarbonyl;
Preparation and characterization of nitrogen-doped TiO2 nanoparticles by the laser pyrolysis of N2O-containing gas mixtures
Keywords: لیرولیز لیزری; Laser pyrolysis; Nanoparticles; TiO2; Nitrogen-doping;
Magnetic properties of core-shell catalyst nanoparticles for carbon nanotube growth
Keywords: لیرولیز لیزری; 42.62âb; 61.46.Df; 75.60.âd; 52.77.Dq; 61.46.Fg; Laser pyrolysis; Core-shell nanoparticles; Superparamagnetism; Coercivity; HF PE CCVD; Oriented carbon nanotubes;
Polymer degradation studies using laser pyrolysis-FTIR microanalysis
Keywords: لیرولیز لیزری; Flame retardant; Laser pyrolysis; Gas analysis; PP; EVA; FTIR
On-line monitoring of composite nanoparticles synthesized in a pre-industrial laser pyrolysis reactor using Laser-Induced Breakdown Spectroscopy
Keywords: لیرولیز لیزری; LIBS; On-line monitoring; Process control; Laser pyrolysis; Composite nanoparticles
One-step catalyst-free generation of carbon nanospheres via laser-induced pyrolysis of anthracene
Keywords: لیرولیز لیزری; Carbon nanoparticles; Laser pyrolysis; Raman spectroscopy; Electron microscopy
Recent trends and developments in pyrolysis–gas chromatography
Keywords: لیرولیز لیزری; Pyrolysis; GC; Polymers; Laser pyrolysis; Non-discriminating pyrolysis; Polymer additives
Structural characteristics of Fe3C-based nanomaterials prepared by laser pyrolysis from different gas-phase precursors
Keywords: لیرولیز لیزری; Nanocomposites; Cementite; Laser pyrolysis;
The effect of the nanocarbon structures from laser pyrolysis on microorganisms evolution
Keywords: لیرولیز لیزری; Laser pyrolysis; Nanocarbons; Microbiology; Toxicology;
Continuous production of inorganic magnetic nanocomposites for biomedical applications by laser pyrolysis
Keywords: لیرولیز لیزری; Composites material; Laser pyrolysis; Magnetization curve; Magnetic nanoparticle; Colloid; Contrast enhancement; Magnetic resonance imaging; Encapsulation
Laser-synthesized carbon nanopowders for nanoscale reinforced hybrid composites
Keywords: لیرولیز لیزری; Laser pyrolysis; Nanocomposite; Carbon;
Laser pyrolysis synthesis and characterization of luminescent silicon nanocrystals
Keywords: لیرولیز لیزری; 78.55.âm; 78.67.Bf; 81.07.âb; Silicon nanocrystals; Laser pyrolysis; Photoluminescence;
Iron/iron oxides core-shell nanoparticles by laser pyrolysis: Structural characterization and enhanced particle dispersion
Keywords: لیرولیز لیزری; Laser pyrolysis; Iron nanoparticles; Core-shell structure; Particle dispersion; Magnetic nanofluid;
Titanium dioxide nanoparticles prepared by laser pyrolysis: Synthesis and photocatalytic properties
Keywords: لیرولیز لیزری; TiO2 nanoparticles; Laser pyrolysis; Fe-doped TiO2; Anatase; Rutile;
Hybrid polymer composites reinforced by layered silicate and laser synthesized nanocarbons
Keywords: لیرولیز لیزری; Nanocomposites; Polymer; Carbon; Laser pyrolysis; Layered silicate;