Keywords: Epitaxy فاز جامد; Silicide Nanoislands; Self-Organization; Solid Phase Epitaxy; Reactive Deposition Epitaxy; Scanning Tunneling Microscopy; Magnetic Properties;
مقالات ISI Epitaxy فاز جامد (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.
Surface morphology and structure of Ge layer on Si(111) after solid phase epitaxy
Keywords: Epitaxy فاز جامد; STM; Semiconductor; Ge; Si(111); Surface structure; Solid phase epitaxy;
The effect of temperature on the growth of Ag2O nanoparticles and thin films from bis(2-hydroxy-1-naphthaldehydato)silver(I) complex by the thermal decomposition of spin-coated films
Keywords: Epitaxy فاز جامد; Nanomaterials; Nanostructures; Oxides; Solid phase epitaxy; Semiconducting materials; X-Ray diffraction;
Lateral solid phase epitaxy of amorphously grown Si1 â xGex layers on SiO2/Si(100) substrates using in-situ RPCVD postannealing
Keywords: Epitaxy فاز جامد; Si; SiGe; Si2H6; Boron; RPCVD; Epitaxy; Annealing; Solid phase epitaxy; HBT;
TEM analysis of Si thin films prepared by diode laser induced solid phase epitaxy at high temperatures
Keywords: Epitaxy فاز جامد; Solid phase epitaxy; Random nucleation and growth; IR laser; Silicon; Time resolved reflectivity measurements; TEM analysis;
Nucleation and crystallization of Li2O-Nb2O5 ternary compound thin films co-sputtered from LiNbO3 and Li2O targets
Keywords: Epitaxy فاز جامد; Nucleation; Crystallization; Lithium Niobate; Lithium Oxide; Niobium pentoxide; Solid Phase Epitaxy; Sputtering;
Formation of Si:CP layer through in-situ doping and implantation process for n-type metal-oxide-semiconductor devices
Keywords: Epitaxy فاز جامد; Ion implantation; Cluster Carbon; Stress; Silicon carbon (Si:C); Phosphorus diffusion; Solid phase epitaxy; Laser annealing;
Solid-phase epitaxy of undoped amorphous silicon by in-situ postannealing
Keywords: Epitaxy فاز جامد; Heterojunction bipolar transistor; Epitaxy; Annealing; Solid phase epitaxy; Silicon; Si2H6; Reduced pressure chemical vapor deposition
Solid phase epitaxy of silicon thin films by diode laser irradiation for photovoltaic applications
Keywords: Epitaxy فاز جامد; Seed crystals; IR laser; Solid phase epitaxy; Solar cells; Silicon; Time resolved reflectivity measurements; Temperature simulations; Electron beam evaporation
Hydrogen in amorphous Si and Ge during solid phase epitaxy
Keywords: Epitaxy فاز جامد; Solid phase epitaxy; Hydrogen diffusion; Device modeling
Growth research of Sn nanoparticles deposited on Si(0 0 1) substrate by solid phase epitaxy
Keywords: Epitaxy فاز جامد; 61.46.Km; 81.15.Np; 07.79.âv; 07.85.âm; Sn nanoparticles; Solid phase epitaxy; Atomic force microscope; X-ray diffraction;
Stress-mediated redistribution of Mn in annealed Si:Mn
Keywords: Epitaxy فاز جامد; Silicon; Manganese; Ion implantation; Annealing; Solid phase epitaxy; Magnetic semiconductor
Growth of Fe silicides on Si(111) surfaces from bcc-Fe to fine-polycrystal and β-FeSi2 phases: Structure and magnetism
Keywords: Epitaxy فاز جامد; Iron silicide; Polycrystal; Solid phase epitaxy; Reflection high-energy electron diffraction; Surface magneto-optic Kerr effect; X-ray diffraction; Vibrating sample magnetometer;
Dopant enhanced H diffusion in amorphous silicon and its effect on the kinetics of solid phase epitaxy
Keywords: Epitaxy فاز جامد; Solid phase epitaxy; Doping effects; H diffusion; Amorphous silicon
Solid phase epitaxy on N-type polysilicon films formed by aluminium induced crystallization of amorphous silicon
Keywords: Epitaxy فاز جامد; Aluminium induced crystallization; N-type polycrystalline silicon; Solid phase epitaxy; Optical analysis
Nanostructuring of Fe films by oblique incidence deposition on a FeSi2 template onto Si(1Â 1Â 1): Growth, morphology, structure and faceting
Keywords: Epitaxy فاز جامد; Solid phase epitaxy; Scanning tunnelling microscopy; Faceting; Growth; Surface structure; morphology, roughness, topography; Iron; Silicon; Oblique deposition;
Thermodynamic modeling of the initial microstructural evolution of oxide films grown on bare copper
Keywords: Epitaxy فاز جامد; Copper; Interfaces; Solid phase epitaxy; Cu2O; Oxide film growth; Microstructural evolution; Misfit dislocations; Thermodynamics;
Surface atomic structure of alloyed Mn5Ge3(0 0 0 1) by scanning tunneling microscopy
Keywords: Epitaxy فاز جامد; Scanning tunneling microscopy; Surface structure; Alloys; Solid phase epitaxy;
Growth of magnetic materials and structures on Si(0 0 1) substrates using Co2Si as a template layer
Keywords: Epitaxy فاز جامد; Template layer; Multi-domain epitaxial layer; Magnetic tunnel junction; Solid phase epitaxy; Reaction deposition epitaxy;
Amorphous–crystalline interface evolution during Solid Phase Epitaxy Regrowth of SiGe films amorphized by ion implantation
Keywords: Epitaxy فاز جامد; 81.05.Cy; 61.50.− f; 64.70.KS; 81.10.Jt; 61.72.LKSilicon germanium alloys; Crystalline state; Solid Phase Epitaxy; Linear defects in crystals; Doping impurity
Solid phase epitaxy of Ge films on CaF2/Si(1 1 1)
Keywords: Epitaxy فاز جامد; 61.14.Hg; 68.55.âa; 68.69.Dv; 81.15.Np; 82.20.Pv; Spot profile analysis of low energy electron diffraction; Semiconductor-insulator multilayers; Molecular beam epitaxy; Solid phase epitaxy; CaF2; Silicon; Germanium;
Variety of iron silicides grown on Si(0 0 1) surfaces by solid phase epitaxy: Schematic phase diagram
Keywords: Epitaxy فاز جامد; Iron silicides; Solid phase epitaxy; Scanning tunneling microscopy; Low energy electron diffraction; Reflection high-energy electron diffraction;
A sequential fluid-solid weak coupling analysis of the SPE in stressed Si layers
Keywords: Epitaxy فاز جامد; Solid phase epitaxy; Fluid-solid interaction; Crystal growth; Interface growth instability;
Ge diffusion and solid phase epitaxy growth to form Si1 − xGex/Si and Ge on insulator structure
Keywords: Epitaxy فاز جامد; SiGe; GOI; Solid phase epitaxy; MOSFET
Homogeneous Si films on CaF2/Si(1 1 1) due to boron enhanced solid phase epitaxy
Keywords: Epitaxy فاز جامد; Grazing incidence X-ray diffraction; Multilayers; Molecular beam epitaxy; Solid phase epitaxy; CaF2; Silicon; Surfactant;
HRTEM observation on microstructures in the Ge-implanted silicon wafers re-processed by solid phase epitaxy
Keywords: Epitaxy فاز جامد; Silicon; Germanium; HRTEM; Microstructure; Ion implantation; Solid phase epitaxy;
Effect of substrate’s nature on the growth of HgBCCO thin films
Keywords: Epitaxy فاز جامد; Superconductivity; Solid phase epitaxy; Mercury based cuprate films; HgBCCO; Films; Spray pyrolysis
Thickness dependent structure of β-FeSi2 grown on silicon by solid phase epitaxy
Keywords: Epitaxy فاز جامد; Solid phase epitaxy; β-FeSi2; Nanodots; Polycrystalline layer;
Structure of NiO and Li-doped NiO single crystalline thin layers with atomically flat surface
Keywords: Epitaxy فاز جامد; Solid phase epitaxy; Surface morphology; Pulsed laser deposition; Oxides;
Growth of β-FeSi2 layers on Si (111) by solid phase and reactive deposition epitaxies
Keywords: Epitaxy فاز جامد; 81.15.â z; 81.15.Np; 71.20.Nr; 79.60.â i; 76.80.+y; Silicides; X-ray photoelectron spectroscopy; Solid phase epitaxy; Mössbauer spectroscopy;
Substrate effects on the growth of epitaxial Pb(Mg1/3,Ta2/3)O3 thin films using chemical solution deposition
Keywords: Epitaxy فاز جامد; 81.15.-z; 68.55.-a; Solid phase epitaxy; Growth mechanism; Inorganic compounds; Cystallization;
Growth and electronic structure of holmium silicides by STM and STS
Keywords: Epitaxy فاز جامد; Scanning tunneling microscopy; Scanning tunneling spectroscopies; Solid phase epitaxy; Growth; Surface relaxation and reconstruction; Lanthanides; Silicides; Metal-semiconductor interfaces;
Interaction of cobalt with the Si(1Â 0Â 0)2Â ÃÂ 1 surface studied by photoelectron spectroscopy
Keywords: Epitaxy فاز جامد; Silicon; Cobalt; Solid phase epitaxy; Synchrotron radiation photoelectron spectroscopy;