Keywords: میکروسکوپ نیروی اتمی; A. Carbon nanotubes; C. Atomic force microscopy; D. Electrical (electronic) properties
مقالات ISI ترجمه شده میکروسکوپ نیروی اتمی
مقالات ISI میکروسکوپ نیروی اتمی (ترجمه نشده)
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Keywords: میکروسکوپ نیروی اتمی; A. Nanostructures; B. Luminescence; C. Atomic force microscopy; C. Electrochemical measurements;
Keywords: میکروسکوپ نیروی اتمی; A. Nanostructure; B. Chemical synthesis; C. Atomic force microscopy; C. X-ray diffraction; D. Defect
Keywords: میکروسکوپ نیروی اتمی; A. Nitrides; A. Hydrides; B. Chemical synthesis; C. Atomic force microscopy; C. Transmission electron microscopy;
Keywords: میکروسکوپ نیروی اتمی; A. Nanostructures; B. Chemical synthesis; C. Atomic force microscopy; C. Raman spectroscopy; D. Defects; D. Electrochemical properties;
Keywords: میکروسکوپ نیروی اتمی; A. Metal; C. X-ray diffraction; C. Atomic force microscopy; A. Multilayers; D. Electrical properties
Keywords: میکروسکوپ نیروی اتمی; A. Nanostructures; B. Chemical synthesis; C. Atomic force microscopy; C. Electron microscopy; C. Thermogravimetric analysis
Keywords: میکروسکوپ نیروی اتمی; A. Nanostructures; B. Chemical synthesis; C. Atomic force microscopy; C. Electrochemical measurements; D. Energy storage;
Optical, morphological and durability studies of quaternary chalcogenide Ge-Sb(As)-(S,Te) films
Keywords: میکروسکوپ نیروی اتمی; A. Chalcogenides; B. Optical properties; C. Atomic force microscopy; C. Electron microscopy; D. Surface properties;
Preparation and characterization of microwave absorbing composite materials with GSs or FeCo/GS composites
Keywords: میکروسکوپ نیروی اتمی; A. Composite; B. Chemical synthesis; B. Magnetic properties; C. Atomic force microscopy; D. Dielectric properties;
One-pot fabrication and characterization of graphene/PMMA composite flexible films
Keywords: میکروسکوپ نیروی اتمی; A. Nanostructures; B. Chemical synthesis; C. Atomic force microscopy; C. Raman spectroscopy; D. Electrical properties;
Effect of Ar ion-beam-assistance and substrate temperature on physical properties of Al-doped ZnO thin films deposited by RF magnetron sputtering
Keywords: میکروسکوپ نیروی اتمی; A. Thin films; B. Sputtering; C. Atomic force microscopy; D. Crystal structure;
Enhanced ferroelectric photovoltaic effect based on converging depolarization field
Keywords: میکروسکوپ نیروی اتمی; A. Multilayers; A. Thin films; B. Epitaxial growth; C. Atomic force microscopy; D. Ferroelectricity; D. Multiferroics
Heteropolytungstate nanoparticles: Microemulsion-mediated preparation and investigation of their catalytic activity in the epoxidation of olefins
Keywords: میکروسکوپ نیروی اتمی; A. Nanostructures; B. Chemical synthesis; C. Atomic force microscopy; D. Catalytic properties
Enhanced electrical behaviour of monoclinic p-CuNb2O6
Keywords: میکروسکوپ نیروی اتمی; A. Ceramics; B. Chemical synthesis; C. Atomic force microscopy; C. Impedance spectroscopy; D. Electrical properties
Immobilized polyoxometalate onto the modified magnetic nanoparticle as a photocatalyst for dye degradation
Keywords: میکروسکوپ نیروی اتمی; A. Nanostructures; B. Chemical synthesis; C. Atomic force microscopy; D. Catalytic properties
The influence of thickness on magnetic properties of nanostructured nickel thin films obtained by GLAD technique
Keywords: میکروسکوپ نیروی اتمی; A. Magnetic materials; A. Metals; A. Nanostructures; A. Thin films; B. Magnetic properties; B. Vapor deposition; C. Atomic force microscopy
Effect of thermal annealing on the structural, optical and dielectrical properties of P3HT:PC70BM nanocomposites
Keywords: میکروسکوپ نیروی اتمی; A. Organic compounds; B. Thermal annealing; C. Impedance spectroscopy; C. Atomic force microscopy; D. Dielectric properties
Mesoporous manganese-porphyrin-silica hybrid nanomaterial sensitive to H2O2 fluorescent detection
Keywords: میکروسکوپ نیروی اتمی; A. Nanostructures; A. Optical materials; B. Sol-gel chemistry; C. Atomic force microscopy; D. Surface properties;
Effects of Co contents on the microstructures and properties of the electrodeposited NiCo–Zr composite coatings
Keywords: میکروسکوپ نیروی اتمی; A. Composites; B. Microstructure; C. Atomic force microscopy; C. X-ray diffraction; D. Surface properties
Rechargable xLi2MnO3·(1 − x)Li4/3Mn5/3O4 electrode nanocomposite material as a modification product of chemical manganese dioxide by lithium additives
Keywords: میکروسکوپ نیروی اتمی; A. Composites; C. X-ray diffraction; C. Atomic force microscopy; D. Energy storage; D. Electrochemical properties
Enhanced piezoelectric output voltage and Ohmic behavior in Cr-doped ZnO nanorods
Keywords: میکروسکوپ نیروی اتمی; A. Nanostructures; C. Atomic force microscopy; C. Transmission electron microscopy (TEM); D. Ferroelectricity; D. Electrical properties
Modified chemical synthesis of porous α-Sm2S3 thin films
Keywords: میکروسکوپ نیروی اتمی; A. Thin films; B. Chemical synthesis; C. X-ray diffraction,; C. Atomic force microscopy; D. Crystal structure
Ta2O5-based high-K dielectric thin films from solution processed at low temperatures
Keywords: میکروسکوپ نیروی اتمی; A. Amorphous materials; A. Thin films; B. Sol–gel chemistry; C. Atomic force microscopy; D. Electrical properties
Shape-dependent bactericidal activity of copper oxide nanoparticle mediated by DNA and membrane damage
Keywords: میکروسکوپ نیروی اتمی; B. Chemical synthesis; A. Metals; C. Atomic force microscopy
Morphology and magneto-transport properties of electron doped La0.85Te0.15MnO3 thin film deposited on LaAlO3 substrate
Keywords: میکروسکوپ نیروی اتمی; A. Thin films; B. Laser deposition; B. Phase transitions; C. Atomic force microscopy; C. Photoelectron spectroscopy
Study the effect of mechanical alloying parameters on synthesis of Cr2Nb–Al2O3 nanocomposite
Keywords: میکروسکوپ نیروی اتمی; A. Composites; A. Intermetallic compounds; A. Nanostructures; C. Atomic force microscopy; C. X-ray diffraction
Capacitance and conductance characterization of nano-ZnGa2Te4/n-Si diode
Keywords: میکروسکوپ نیروی اتمی; A. Semiconductors; B. Vapor deposition; C. Atomic force microscopy; C. Impedance spectroscopy; D. Dielectric properties
Epitaxial growth of mixed conducting layered Ruddlesden-Popper Lan+1NinO3n+1 (n = 1, 2 and 3) phases by pulsed laser deposition
Keywords: میکروسکوپ نیروی اتمی; A. Layered compounds; A. Thin films; B. Laser deposition; C. Atomic force microscopy; C. X-ray diffraction;
Diffusion mediated agglomeration of CdS nanoparticles via Langmuir-Blodgett technique
Keywords: میکروسکوپ نیروی اتمی; A. Nanostructures; A. Thin films; B. Epitaxial growth; C. Atomic force microscopy; D. Diffusion;
Synthesis and characteristics of spray deposited CuInS2 nanocrystals thin films for photovoltaic applications
Keywords: میکروسکوپ نیروی اتمی; A. Thin films; A. Optical Materials; C. Atomic force microscopy; C. X-ray diffraction;
Kerf profile and piezoresponse study of the laser micro-machined PMN-PT single crystal using 355 nm Nd:YAG
Keywords: میکروسکوپ نیروی اتمی; A. Electronic materials; C. Atomic force microscopy; D. Ferroelectricity
Explosive boiling of Ge35Sb10S55 glass induced by a CW laser
Keywords: میکروسکوپ نیروی اتمی; A. Chalcogenides; B. Glass; C. Atomic force microscopy; D. Radiation damage
Proposed mechanism to represent the suppression of dark current density by four orders with low energy light ion (H−) implantation in quaternary alloy-capped InAs/GaAs quantum dot infrared photodetectors
Keywords: میکروسکوپ نیروی اتمی; A. Semiconductors; B. Epitaxial growth; C. Atomic force microscopy; D. Optical properties; D. Electrical properties
Evolution of the structure and properties of solution-based Ge23Sb7S70 thin films during heat treatment
Keywords: میکروسکوپ نیروی اتمی; A. Amorphous material; A. Chalcogenides; B. Chemical synthesis; C. Atomic force microscopy; C. Infrared spectroscopy;
Antibacterial effects of biosynthesized silver nanoparticles using aqueous leaf extract of Rosmarinus officinalis L.
Keywords: میکروسکوپ نیروی اتمی; A. Metals; C. Atomic force microscopy; C. X-ray diffraction; C. Transmission electron microscopy (TEM)
Utilization of residual CdCl2 in CBD-CdS to realize grain growth in CdTe: A novel route
Keywords: میکروسکوپ نیروی اتمی; 78.66.Sq; 78.55.Et; 81.15.âz; A. Thin films; C. Atomic force microscopy; C. Electron microscopy; Semiconductors;
Silver nanoparticles preferentially reduced on PEG-grafted glass surfaces for SERS applications
Keywords: میکروسکوپ نیروی اتمی; A. Silver nanoparticles; B. Chemical synthesis; C. Atomic force microscopy; D. Optical properties
Methylene blue dye coated silver–silica nanoparticles with dual functionality fabricated by injection pump and ultrasonochemistry
Keywords: میکروسکوپ نیروی اتمی; A. Composites; A. Nanostructures; B. Chemical synthesis; C. Atomic force microscopy; D. Surface properties
Enhancement of the efficiency of dye-sensitized solar cell with multi-wall carbon nanotubes/polypyrrole composite counter electrodes prepared by electrophoresis/electrochemical polymerization
Keywords: میکروسکوپ نیروی اتمی; A. Composites; A. Thin films; C. Atomic force microscopy; C. Electrochemical measurements; C. Impedance spectroscopy
Nano-crystalline p-ZnGa2Te4/n-Si as a new heterojunction diode
Keywords: میکروسکوپ نیروی اتمی; A. Thin films; B. Vapor deposition; C. Atomic force microscopy; D. Electrical properties
Structural and optical properties of nanocrystalline lead sulfide thin films prepared by microwave-assisted chemical bath deposition
Keywords: میکروسکوپ نیروی اتمی; A. Thin films; B. Chemical synthesis; C. Atomic force microscopy; D. X-ray diffraction; F. Optical properties
Electronic absorption band broadening and surface roughening of phthalocyanine double layers by saturated solvent vapor treatment
Keywords: میکروسکوپ نیروی اتمی; A. Nanostructures; A. Surfaces; A. Thin films; C. Atomic force microscopy
Carbon molecular beam epitaxy on various semiconductor substrates
Keywords: میکروسکوپ نیروی اتمی; A. Thin films; B. Epitaxial growth; C. Atomic force microscopy; C. Raman spectroscopy; D. Microstructure
Surface and crystalline analysis of aluminum oxide single crystal treated by quasistationary compression plasma flow
Keywords: میکروسکوپ نیروی اتمی; A. Oxides; C. Atomic force microscopy; C. Electron microscopy; C. X-ray diffraction; D. Surface properties
Growth and characterization of periodically polarity-inverted ZnO structures on sapphire substrates
Keywords: میکروسکوپ نیروی اتمی; 81.05.Ea; 81.15.Gh; 78.55.CrA. Semiconductor; A. Thin films; B. Epitaxial growth; C. Atomic force microscopy
Crystal growth and photoluminescence characteristics of Ca2MgSi2O7:Eu3+ thin films grown by pulsed laser deposition
Keywords: میکروسکوپ نیروی اتمی; 78.20.−e; 78.55.−m; 78.66.−wB. Laser deposition; D. Optical properties; A. Thin films; C. Atomic force microscopy; C. X-ray diffraction
A perturbation analysis on solid polymer surfaces
Keywords: میکروسکوپ نیروی اتمی; A. Organic compounds; A. Surfaces; C. Atomic force microscopy;
Tribological properties of metal doped a-C film by RF magnetron sputtering method
Keywords: میکروسکوپ نیروی اتمی; A. Amorphous materials; A. Carbides; B. Sputtering; C. Atomic force microscopy; D. Mechanical properties
The effects of annealing temperature on characteristics of UBMS sputtered CNx films for protective coatings
Keywords: میکروسکوپ نیروی اتمی; A. amorphous materials; A. thin films; B. sputtering; C. Raman spectroscopy; C. atomic force microscopy; D. surface properties;