Keywords: مهندسی نقص; Defect engineering; Nanowires; Stress relaxation; Ultra-high strength; Zinc oxide; Stacking fault; Atomistic simulation;
مقالات ISI مهندسی نقص (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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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: مهندسی نقص; Ferroelectrics; Vortex; Mechanical switching; Defect engineering;
Keywords: مهندسی نقص; Oxygen vacancy; Defect engineering; Tungsten trioxide; Visible light photocatalysis; Charge-carriers separation;
Keywords: مهندسی نقص; Defect engineering; 2D materials; HER; ORR; OER;
Keywords: مهندسی نقص; Graphene; Defect engineering; Stone-Thrower-Wales defect; Crack bridging; Stress intensity factor; Fracture toughness;
Keywords: مهندسی نقص; Thermal conductivity; Defect engineering; Phonon scattering; Thermal barrier coatings;
Keywords: مهندسی نقص; Martensitic transformation; Defect engineering; Strain glass; Phase field method;
Keywords: مهندسی نقص; Hydrogen evolution reaction; Heteroatoms co-doping; Plasma-etching; Defect engineering;
Keywords: مهندسی نقص; Yttria stabilized zirconia; Defect engineering; Low temperature degradation; Thermally stimulated depolarization current; Hydrophilicity
Keywords: مهندسی نقص; Radiation damage; Silicon particle detectors; Radiation hardness; Defect engineering; Detector simulations; HL-LHC;
Keywords: مهندسی نقص; Double walled carbon nanotube; Fluorination; De-fluorination; Defect engineering; Raman spectroscopy
Quest for pore size effect on the catalytic property of defect-engineered MOF-808-SO4 in the addition reaction of isobutylene with ethylene glycol
Keywords: مهندسی نقص; MOF-808-SO4; Defect engineering; Pore size; Catalytic property; Solid acid catalyst;
Tailoring the switching performance of resistive switching SrTiO3 devices by SrO interface engineering
Keywords: مهندسی نقص; Resistive switching; Nano electronics; Epitaxy; Pulsed laser deposition; Defect engineering; Defect chemistry;
Mimicking tetravalent dopant behavior using paired charge compensating dopants to improve the redox performance of ceria for thermochemically splitting H2O and CO2
Keywords: مهندسی نقص; Solar energy; Defect engineering; Density functional theory; Redox catalysis; Ceria;
Defect-mediated multiple-enhancement of phonon scattering and decrement of thermal conductivity in (YxYb1-x)2SiO5 solid solution
Keywords: مهندسی نقص; Rare earth silicates; Thermal/environmental barrier coating; Solid solution; Thermal conductivity; Defect engineering;
Species, engineering and characterizations of defects in TiO2-based photocatalyst
Keywords: مهندسی نقص; Titanium dioxide; Defect engineering; Photocatalysis; Water splitting; Environmental purification;
Oxygen-incorporated defect-rich MoP for highly efficient hydrogen production in both acidic and alkaline media
Keywords: مهندسی نقص; Molybdenum phosphide; Defect engineering; Oxygen-incorporation; Hydrogen evolution reaction;
Defect engineering of two-dimensional WO3 nanosheets for enhanced electrochromism and photoeletrochemical performance
Keywords: مهندسی نقص; Oxygen vacancies; WO3 ultrathin nanosheets; Defect engineering; Electrochromism; Photocatalytic performance;
Defects engineering induced room temperature ferromagnetism in transition metal doped MoS2
Keywords: مهندسی نقص; Defect engineering; 2D materials; Ferromagnetism; First principle calculations;
Defect control for enhanced piezoelectric properties in SnO2 and ZrO2 co-modified KNN ceramics fired under reducing atmosphere
Keywords: مهندسی نقص; Lead-free piezoelectric ceramics; Sodium potassium niobate; Reducing atmosphere; Defect engineering; Thermally stimulated depolarization;
CO2-Induced Defect Engineering: A New Protocol by Doping Vacancies in 2D Heterostructures for Enhanced Visible-Light Photocatalysis
Keywords: مهندسی نقص; defect engineering; 2D heterostructures; WS2/WO3·H2O; oxide vacancies; photocatalysis;
Controllable graphene incorporation and defect engineering in MoS2-TiO2 based composites: Towards high-performance lithium-ion batteries anode materials
Keywords: مهندسی نقص; MoS2-TiO2 based composites; Graphene incorporation; Defect engineering; Robust structure; Lithium-ion battery;
Enhanced visible light hydrogen production via a multiple heterojunction structure with defect-engineered g-C3N4 and two-phase anatase/brookite TiO2
Keywords: مهندسی نقص; Graphitic carbon nitride; Photocatalysts; Titanium oxide; Heterojunctions; Solar hydrogen; Defect engineering;
Enhanced photon-to-electron conversion and improved water resistance of hydrogenated ceria in photocatalytic oxidation at gas–solid interface
Keywords: مهندسی نقص; Defect engineering; Photocatalysis; Oxygen vacancies; Water resistance; Gas–solid interface
Surfactant free, simple, morphological and defect engineered ZnO nanocatalyst: Effective study on sunlight driven and reusable photocatalytic properties
Keywords: مهندسی نقص; ZnO nanostructures; Visible photocatalyst; Defect engineering; Organic dye; Reactive oxygen species
Intrinsic defect-induced tailoring of interfacial shear strength in CNT/polymer nanocomposites
Keywords: مهندسی نقص; Interfacial shear strength; Nanocomposites; Molecular dynamics; Carbon nanotube; Pull-out test; Defect engineering
Enhancement of room temperature ferromagnetism in Cu-doped AlN thin film by defect engineering
Keywords: مهندسی نقص; Diluted magnetic semiconductor; AlN; Room-temperature ferromagnetism; Nonmagnetic element dopant; Defect engineering;
Controlling the CO oxidation rate over Pt/TiO2 catalysts by defect engineering of the TiO2 support
Keywords: مهندسی نقص; CO oxidation; Defect engineering; Carrier concentration; TiO2; Anatase; Pt; Support effect; Density functional theory;
Enhancing the visible-light photocatalytic activity of TiO2 by heat treatments in reducing environments
Keywords: مهندسی نقص; TiO2; Photocatalysis; Defect engineering; Nanoparticles
Dopant-defect interactions in Ge: Density functional theory calculations
Keywords: مهندسی نقص; Germanium; Dopants; Diffusion; Defect engineering
Simulation of the diffusion of point defects in structures with local elastic stresses
Keywords: مهندسی نقص; Semiconductors; Diffusion modelling; Stress-mediated diffusion; Point defects; Defect engineering
Simulation of damage induced by ion implantation in Lithium Niobate
Keywords: مهندسی نقص; Ion implantation; Lithium Niobate; Defect engineering;
Trends in semiconductor defect engineering at the nanoscale
Keywords: مهندسی نقص; Semiconductors; Defect engineering; Defects; Metal oxides; Nanoelectronics
Gettering layer for oxygen accumulation in the initial stage of SIMOX processing
Keywords: مهندسی نقص; Ion implantation; SIMOX; Defect engineering; Empty volume; Internal surface
Study of defect engineering in the initial stage of SIMOX processing
Keywords: مهندسی نقص; 61.72.Tt; 61.72.Yx; 61.72.JiIon implantation; SIMOX process; Vacancy defects; Defect engineering; Si
Radiation hardness of high resistivity n- and p-type magnetic Czochralski silicon
Keywords: مهندسی نقص; 20.40.Gx; 29.40.Wk; 61.82.Fk; 61.80.−xRadiation damage; Semiconductor detectors; Silicon particle detectors; Defect engineering; SLHC; Super–LHC
Point and extended defects engineering as a key to advancing the technology of light-emitting diodes based on single-crystal Si and SiGe layers
Keywords: مهندسی نقص; Defect engineering; Light-emitting diodes; Er- and Ho-related luminescence; Near-band edge radiative recombination; Si; SiGe; Point and extended defects
Czochralski silicon sensors: Status of development
Keywords: مهندسی نقص; 29.40.Gx; 29.40.Wk; 61.82.Fk; Radiation damage; Semiconductor detectors; Defect engineering; Material engineering;
Transition metal co-precipitation mechanisms in silicon
Keywords: مهندسی نقص; Defect engineering; Precipitation; Intermetallics; Multicrystalline silicon; Photovoltaics
Recent results from RD50
Keywords: مهندسی نقص; 29.40.Wk; 29.40.Gx; 61.82.FkRadiation damage; Semiconductor detectors; Defect engineering; Super-LHC
Control of metal impurities in “dirty” multicrystalline silicon for solar cells
Keywords: مهندسی نقص; Photovoltaics; Solar cells; Solar-grade silicon; Defect engineering; Iron; Copper; Nickel; Silicon
Radiation hardness of silicon detectors based on pre-irradiated silicon
Keywords: مهندسی نقص; 29.40.Gx; 29.40.Wk; 61.82.FkSilicon particle detectors; Neutron irradiation; Radiation hardness; Radiation damage; Semiconductor detectors; Defect engineering; SLHC; Super-LHC
Radiation-hard detectors for very high luminosity colliders
Keywords: مهندسی نقص; 29.40.Wk; 61.82.Fk; 81.40.WxRadiation damage; Semiconductor detectors; Silicon particle detectors; Defect engineering; Super-LHC; S-LHC
Radiation tolerant semiconductor sensors for tracking detectors
Keywords: مهندسی نقص; 92.40.Gx; 29.40.Wk; 61.82.FkRadiation damage; Semiconductor detectors; Silicon particle detectors; Defect engineering; SLHC
Hydrogen and helium interactions in Si: phenomena obscure and not-so-obscure
Keywords: مهندسی نقص; 61.72.Ji; 61.72.Tt; 81.65.Rv; 71.55.Cn; 81.65.Cf; Hydrogen in Si; Helium implantation; Defect engineering; Hydrogen-defect interactions; Dopant activation; Nanocavities;
Development of radiation tolerant semiconductor detectors for the Super-LHC
Keywords: مهندسی نقص; 29.40.Gx; 29.40.Wk; 61.82.Fk; Radiation damage; Semiconductor detectors; Silicon particle detectors; Defect engineering; SLHC; Super-LHC;
Recent advancements in the development of radiation hard semiconductor detectors for S-LHC
Keywords: مهندسی نقص; 29.40.Gx; 29.40.Wk; 61.82.Fk; Radiation damage; Semiconductor detectors; Defect engineering; Super-LHC;