Keywords: B1 ترکیبات لیتیم; A1. Nucleation; A2. Growth from solutions; A2. Single crystal growth; B1. Lithium compounds; B2. Nonlinear optical materials;
مقالات ISI B1 ترکیبات لیتیم (ترجمه نشده)
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Keywords: B1 ترکیبات لیتیم; A1. Nucleation; A1. Single crystal growth; A1. Etching; A2. Growth from solutions; B1. Lithium compounds; Solubility
Keywords: B1 ترکیبات لیتیم; A1. Characterization; A1. Solidification; A2. Bridgman technique; B1. Lithium compounds; B2. Semiconducting ternary compounds
Keywords: B1 ترکیبات لیتیم; A2. Bulk crystal growth; A2. Bridgman technique; A1. Radiation; B1. Lithium compounds; B3. Semiconductor neutron detector;
Keywords: B1 ترکیبات لیتیم; A1. Characterization; A1. Defects; A1. Solidification; A2. Bridgman technique; B1. Lithium compounds; B2. Semiconducting ternary compounds;
Numerical modeling of Czochralski growth of Li2MoO4 crystals for heat-scintillation cryogenic bolometers
Keywords: B1 ترکیبات لیتیم; A1. Convection; A1. Computer simulation; A2. Czochralski method; B1. Lithium compounds; B1. Oxides; B2. Scintillator materials;
Hydrothermal single crystal growth and second harmonic generation of Li2SiO3, Li2GeO3 and Li2Si2O5
Keywords: B1 ترکیبات لیتیم; A2. Hydrothermal crystal growth; B2. Nonlinear optic materials; B1. Lithium compounds; A2. Single crystal growth;
Effects of Na co-doping on optical and scintillation properties of Eu:LiCaAlF6 scintillator single crystals
Keywords: B1 ترکیبات لیتیم; A1. Doping; A2. Single crystal growth; B1. Lithium compounds; B2. Scintillator materials;
Li2MoO4 crystal growth from solution activated by low-frequency vibrations
Keywords: B1 ترکیبات لیتیم; A1. Computer simulation; A1. Convection; A1. Mass transfer; A2. Growth from solutions; B1. Lithium compounds;
In-situ detection of growth striations by crystallization electromotive force measurement during Czochralski crystal growth
Keywords: B1 ترکیبات لیتیم; A1. Defects; A1. Interfaces; A2. Czochralski method; B1. Lithium compounds; B1. Niobates; B1. Oxides;
Static sublimation purification process and characterization of LiZnAs semiconductor material
Keywords: B1 ترکیبات لیتیم; A1. Purification; B1. Lithium compounds; A1. Radiation; B2. Semiconducting ternary compounds; A1. X-ray diffraction
Lithium outdiffusion in LiTi2O4 thin films grown by pulsed laser deposition
Keywords: B1 ترکیبات لیتیم; A3. Physical vapor deposition processes; B1. Oxides; B1. Lithium compounds; B1. Titanium compounds; B2. Oxide superconducting materials;
Pulsed-laser deposition of superconducting LiTi2O4 ultrathin films
Keywords: B1 ترکیبات لیتیم; A1. X-ray diffraction; A3. Pulsed-laser deposition; B1. Lithium compounds; B2. Oxide superconducting materials
Static sublimation purification process and characterization of LiZnP semiconductor material
Keywords: B1 ترکیبات لیتیم; A1. Purification; A1. Radiation; A1. X-ray diffraction; B1. Lithium compounds; B2. Semiconducting ternary compounds
Synthesis and characterization of LiZnP and LiZnAs semiconductor material
Keywords: B1 ترکیبات لیتیم; A1 Crystal structure; A1. Radiation; A1. X-ray diffraction; B1. Lithium compounds; B2. Semiconducting ternary compounds;
Bulk crystal growth, and high-resolution x-ray diffraction results of LiZnP semiconductor material
Keywords: B1 ترکیبات لیتیم; A1. Radiation; A1. x-ray diffraction; A1. Crystal Structure; A2. Bridgman technique; B1. Lithium compounds; B2. Semiconducting ternary compounds
Microstructure of striae in ã04¯41ã-oriented lithium niobate single crystal grown by Czochralski method
Keywords: B1 ترکیبات لیتیم; A1. Planar defects; A1. Line defects; A2. Czochralski method; B1. Lithium compounds; B1. Niobates;
Crystal growth and neutron diffraction studies of LixCoO2 bulk single crystals
Keywords: B1 ترکیبات لیتیم; A1. Crystal structure; A2. Floating zone technique; A2. Single crystal growth; B1. Lithium compounds
Growth and characterization of β-LiGaO2 single crystal
Keywords: B1 ترکیبات لیتیم; A1. Atomic force microscopy; A1. X-ray diffraction; A2. Czochralski method; A2. Growth from melt; B1. Lithium compounds; B1. Oxides;
Growth and characterization of Cu (II) doped negatively soluble lithium sulfate monohydrate crystals
Keywords: B1 ترکیبات لیتیم; A1. Single crystal Growth; A2. Growth from solutions; B1. Lithium compounds; B2. Nonlinear optical material; B2. Piezoelectric crystals;
Growth of LiH2PO4 single crystals from phosphate solutions
Keywords: B1 ترکیبات لیتیم; A1. Supersaturated solutions; A2. Growth from solutions; A2. Single crystal growth; B1. Lithium compounds; B2. Piezoelectric materials; B3. Fuel cells
Growth of negative solubility lithium sulfate monohydrate crystal by slow evaporation and Sankaranarayanan–Ramasamy method
Keywords: B1 ترکیبات لیتیم; A1. Solubility; A2. Growth from solutions; B1. Lithium compounds; B2. Piezoelectric materials
Growth and characterisation of LixCoO2 single crystals
Keywords: B1 ترکیبات لیتیم; A1. de-intercalation; A2. Single crystal growth; B1. Lithium compounds;
A versatile metal-halide vapor chemistry for the epitaxial growth of metallic, insulating and semiconducting films
Keywords: B1 ترکیبات لیتیم; A3. Molecular Beam Epitaxy; B1. Lithium compounds; B1. Niobates; B1. Oxides; B2. Ferroelectric materials; A1. X-ray diffraction
Determination of seeded supersolubility of lithium carbonate using FBRM
Keywords: B1 ترکیبات لیتیم; 81.10.Dn; 82.60.NhA1. Nucleation; A2. Seed crystals; B1. Lithium compounds; B3. FBRM
Determination of the supersaturation in the LiIO3–HIO3–H2O system using a refractive index value at near saturation concentration
Keywords: B1 ترکیبات لیتیم; 78.20.Ci; 07.60.Hv; 82.20.W; 82.20.WtA1. Supersaturated solutions; B1. Lithium compounds; B2. Non-linear optic materials
Single-crystal growth of LiMnPO4 by the floating-zone method
Keywords: B1 ترکیبات لیتیم; 81.10.Fq; 75.50.Ee; 75.30.Gw; 76.30.−vA1. Morphological stability; A2. Floating-zone technique; B1. Lithium compounds; B1. Phosphates
Unseeded Supersolubility of Lithium Carbonate: Experimental Measurement and Simulation with Mathematical Models
Keywords: B1 ترکیبات لیتیم; 81.10.Dn; 82.60.NhA1. Supersaturated solutions; A2. Growth from solutions; B1. Lithium compounds; B3. Laser method
Growth of LiCoPo4 single crystals using an optical floating-zone technique
Keywords: B1 ترکیبات لیتیم; 61.05.cp; 81.10.Fq; A2. Floating zone technique; A2. Single crystal growth; B1. Lithium compounds; B1. Phosphates; B2. Energy storage; B3. Lithium batteries;
Properties of Ru-doped near-stoichiometric lithium niobate crystals produced by vapor transport equilibration
Keywords: B1 ترکیبات لیتیم; 42.40.Ht; 42.70.Ln; 61.50.Nw; 64.70.HzA1. Defects; A1. Diffusion; A1. Doping; B1. Lithium compounds; B2. Photorefractive materials
Effects of the Li-evaporation on the Czochralski growth of γ-LiAlO2
Keywords: B1 ترکیبات لیتیم; 61.72.Ff; 77.84.Bw; 81.10.FqA1. Characterization; A2. Czochralski method; A2. Single crystal growth; B1. Gamma-LiAlO2; B1. Lithium compounds
Partitioning of ionic species and crystallization electromotive force during the melt growth of LiNbO3 and Li2B4O7
Keywords: B1 ترکیبات لیتیم; 64.70.Dv; 73.50.Lw; 81.10.Fq; 81.30.Fb; 84.37.+q; 87.50.RrA1. Electric fields; A1. Interfaces; A2. Micro-pulling-down growth; B1. Borates; B1. Lithium compounds; B1. Niobates
Growth of large-diameter nearly stoichiometric lithium niobate crystals by continuous melt supplying system
Keywords: B1 ترکیبات لیتیم; 61.50.Nw; 78.30.âj; A1. Segregation; A2. Growth from solution; A2. Single crystal growth; B1. Lithium compounds; B1. Oxides; B2. Non-linear-optic materials;
DC-drift suppression of Ti: LiNbO3 waveguide chip by minimizing the contamination in oxide buffer layer
Keywords: B1 ترکیبات لیتیم; 42.30.Lr; 42.79.Gn; A1. Diffusion; B1. Lithium compounds; B3. Optical fiber devices;
A study of the chemical reactions involved in Li–Ca–N system
Keywords: B1 ترکیبات لیتیم; A1. X-ray diffraction; B1. Calcium compounds; B1. Lithium compounds; B1. Nitrides
Growth and characterizations of ZnO-doped near-stoichiometric LiNbO3 crystals by zone-leveling Czochralski method
Keywords: B1 ترکیبات لیتیم; 81.10.Dn; 61.72.Ss; 42.70.MpA1. Defects; A1. Segregation; A2. Growth from solution; A2. Single crystal growth; B1. Lithium compounds; B1. Oxides; B2. Nonlinear-optic materials
Study of the mechanism of crystallization electromotive force during growth of congruent LiNbO3 using a micro-pulling-down method
Keywords: B1 ترکیبات لیتیم; 64.70.Dv; 73.50.Lw; 81.10.Fq; 81.30.Fb; 84.37.+q; 87.50.RrA1. Electric fields; A1. Interfaces; A2. Growth from melt; A2. Micro-pulling-down growth; B1. Lithium compounds; B1. Niobates; B1. Oxides
Growth and threshold effect of Sc:Er:LiNbO3 crystals
Keywords: B1 ترکیبات لیتیم; 42.70.Ln; 61.70.Y; 07.60.Rd; A2. Czochralski method; B1. Lithium compounds; B2. Photorefractive materials;
Growth and photorefractive properties of In:Fe:LiNbO3 crystals with various [Li]/[Nb] ratios
Keywords: B1 ترکیبات لیتیم; 42.70.Mp; 78.30.âj; 78.20.Ci; A2. Czochralski method; B1. Lithium compounds; B2. Photo-refractive materials;
Growth of new nonlinear crystals LiMX2 (M=Al, In, Ga; X=S, Se, Te) for the mid-IR optics
Keywords: B1 ترکیبات لیتیم; 42.70.Mp+81.10.Fq+81.70.Pq; A2. Single-crystal growth; B1. Lithium compounds; B2. Nonlinear optical materials;
Sub-micron ferroelectric domain engineering in liquid phase epitaxy LiNbO3 by direct-write e-beam techniques
Keywords: B1 ترکیبات لیتیم; 77.84.Dy; 85.40.Hp; 42.70.âa; 42.79.Dj; A1. E-beam; A1. Periodic poling; A3. Liquid phase epitaxy; B1. Lithium compounds; B1. Niobates; B2. Ferroelectric materials;
Direct-write e-beam sub-micron domain engineering in liquid phase epitaxy (LPE) LiNbO3 thin films and single crystal LiNbO3
Keywords: B1 ترکیبات لیتیم; 77.84.Dy; 85.40.Hp; 42.70.âa; 42.79.Dj; A3. Liquid phase epitaxy; B1. Lithium compounds; B1. Niobates; B2. Ferroelectric materials; A1. E-beam; A1. Periodic poling;