Keywords: A1 طیف سنجی رامان; A1. Recrystallization; A1. Raman spectroscopy; B1. Diamond; B1. Nanomaterials; B1. Glassy carbon balls; B3. Multianvil apparatus;
مقالات ISI A1 طیف سنجی رامان (ترجمه نشده)
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Reinvestigation on the phase transition of a LiB3O5 crystal near its melting point
Keywords: A1 طیف سنجی رامان; A1. Phase diagrams; A1. Raman spectroscopy; A1. First-principles calculations; B1. Borates; B2. Nonlinear optic materials;
Raman spectral characterization of NH4H2PO4 single crystals: Effect of pH on microstructure
Keywords: A1 طیف سنجی رامان; A1. Raman spectroscopy; A1. pH; A2. Single crystal growth; A2. Growth from solutions; A2. Microstructure; B1. NH4H2PO4;
Crystal growth of barium nitrate on thiol-terminated self-assembled monolayers and a Raman spectroscopic investigation of the crystal facets
Keywords: A1 طیف سنجی رامان; A1. Crystal morphology; A1. Raman spectroscopy; A2. Growth from solutions; A3. Self-assembled monolayer (SAM);
The effect of pressure on the kinetics of γ-anhydrite crystallization investigated by diamond anvil cell
Keywords: A1 طیف سنجی رامان; A1. Raman spectroscopy; A1. Crystallization; A2. Phase transformation; Anhydrite; Diamond anvil cell;
Growth and characterization of single phase AgInS2 crystals for energy conversion application through β-In2S3 by thermal evaporation
Keywords: A1 طیف سنجی رامان; A1. Raman spectroscopy; AgInS2 thin film; AC conductivity; Dielectric constants; Complex electric modulus;
Microstructure and Raman scattering of Ag-doping ZnO films deposited on buffer layers
Keywords: A1 طیف سنجی رامان; A1. RF magnetron sputtering; A1. Raman spectroscopy; A1. X-ray diffraction; A1. Optical band gap; B1. ZnO films
Growth and Raman spectrum of Ba2Mg(B3O6)2 crystal
Keywords: A1 طیف سنجی رامان; A1. First-principles calculations; A1. Raman spectroscopy; A2. Growth from melt; B1. Borates; B2. Nonlinear optic materials
Extracellular matrix protein in calcified endoskeleton: a potential additive for crystal growth and design
Keywords: A1 طیف سنجی رامان; A1. Biomineralization; A1. Biomaterials; A1. Raman spectroscopy; A1. Seed crystals; B1. Minerals; B1. Biological macromolecules
In-situ cyclic pulse annealing of InN on AlN/Si during IR-lamp-heated MBE growth
Keywords: A1 طیف سنجی رامان; 68.55.Jk; 78.30.Fs; A1. Crystal structure; A1. Raman spectroscopy; A1. X-ray diffraction; A3. Molecular beam epitaxy; B1. Nitrides; B2. Semiconducting III-V materials;
Ternary system Li2O-K2O-Nb2O5: Re-examination of the 30Â mol% K2O isopleth and growth of fully stoichiometric potassium lithium niobate single crystals by the micro-pulling down technique
Keywords: A1 طیف سنجی رامان; 81.10.Fq; 81.30.Dz; 61.10.Nz; 61.50.Nw; A1. Crystal structure; A1. Phase diagrams; A1. Raman spectroscopy; A1. X-ray diffraction; A2. Micro-pulling down technique; A3. Niobates;
Study on the initial growth process of crystalline silicon films on aluminum-coated polyethylene napthalate by Raman spectroscopy
Keywords: A1 طیف سنجی رامان; 81.10.BkA1. Micro-structural characterization; A1. Plastic substrates; A1. Raman spectroscopy; A1. Transmission electron microscopy; A3. Chemical vapor deposition processes; B1. Crystalline silicon films
The influence of substrate temperature on ZnO thin films prepared by PLD technique
Keywords: A1 طیف سنجی رامان; 78.66.Hf; 81.15.FgA1. Crystal quality; A1. Raman spectroscopy; A1. Photoluminescence; A1. X-ray diffraction; A3. Pulsed laser deposition; B2. Zinc oxide
Structural units of polycomponent melts modeled using diffraction, spectroscopy, and computation techniques
Keywords: A1 طیف سنجی رامان; 61.20.Gy; 61.20.Qg; 61.46.+w; A1. Computer simulations; A1. Low-dimensional structures; A1. Raman spectroscopy; A1. Synchrotron diffraction; A2. Crystallization from melt; B1. Complex oxides;
Some aspects of lithium–boron melts structuring
Keywords: A1 طیف سنجی رامان; 61.20; 78.30; 61.10; 76.60; 61.20.J; 81.10.DnA1. Computer simulation; A1. IR; A1. NMR; A1. Raman spectroscopy; A1. Synchrotron-ray diffraction; A2. Growth from molten solutions; B1. Borate melts; B2. Nonlinear LBO crystals
From molten glass to crystallizable melt: The essence of structural evolution
Keywords: A1 طیف سنجی رامان; 61.20.Gy; 61.46.+w; 81.10.Aj; A1. Computer simulations; A1. Nucleation and crystallization models; A1. Raman spectroscopy; A1. Synchrotron diffraction; A2. Crystallization from melt; B1. Complex oxides;
Optimization of the mineral content in polymeric gels: The effect of calcium to phosphate molar ratio
Keywords: A1 طیف سنجی رامان; A1. Biomimetics; A1. Mineralization; A1. Molar-ratio; A1. Raman spectroscopy; A1. SEM; B1. Hydroxyapatite;
Polycrystalline InN thin films prepared by ion-beam-assisted filtered cathodic vacuum arc technique
Keywords: A1 طیف سنجی رامان; 61.10.âI; 78.30.âj; 81.15.Tv; A1. Raman spectroscopy; A1. X-ray diffraction; A2. Ion-beam-assisted filtered cathodic vacuum arc technique; B1. Indium nitride;