Keywords: مهندسی باند پهن; Visible light active sodium tantalate; Co-doping with N and Fe; Band gap engineering; Synergetic effect; CO2 photo reduction;
مقالات ISI مهندسی باند پهن (ترجمه نشده)
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Keywords: مهندسی باند پهن; Machine learning; Band gap engineering; Chalcopyrites; Feature selection; Regression;
Keywords: مهندسی باند پهن; g-C3N4; Element doping; Visible light photocatalysis; Band gap engineering; Heterojunction;
Keywords: مهندسی باند پهن; Indium zinc oxynitride; Nitrogen incorporation; Band gap engineering; Band gap narrowing
Keywords: مهندسی باند پهن; Photocatalysts; Metal oxides; Non-metal doping; Band gap engineering; Visible light photocatalysis
Weak ferromagnetism in band-gap engineered α-(Fe2O3)1âX(Cr2O3)X nanoparticles
Keywords: مهندسی باند پهن; Nanoparticles; Band gap engineering; Pectin; Weak ferromagnetism; Optical properties; Spintronics; Sol-gel;
TiO2ârGO nanocomposite as a photo catalyst for the reduction of Cr6+
Keywords: مهندسی باند پهن; Cr6+; TiO2; rGO; TiO2ârGO nanocomposites; Band gap engineering; TiOC interfacial bond; Photocatalytic reduction of Cr6+;
Comparative study of electronic and optical properties of graphene and germanene: DFT study
Keywords: مهندسی باند پهن; Graphene germanene; Superlattices; Electronic properties; Band gap engineering;
Band gap engineering in SnO2 by Pb doping
Keywords: مهندسی باند پهن; Transparent conductive oxides; Band gap engineering; Pb doped SnO2; Dirac material;
Observation of oxo-bridged yttrium in TiO2 nanostructures and their enhanced photocatalytic hydrogen generation under UV/Visible light irradiations
Keywords: مهندسی باند پهن; Photocatalysis; Hydrogen production; TiO2; Nanostructures; Band gap engineering;
Functionalization of Ge(1â¯0â¯0) surface by adsorption of phenylthiol
Keywords: مهندسی باند پهن; Band gap engineering; Organic functionalization; DFT calculations; Phenylthiol; Ge(1â¯0â¯0);
Study of optoelectronic and thermoelectric properties of BaSiO3 perovskite under moderate pressure for energy renewable devices applications
Keywords: مهندسی باند پهن; Semiconductors; Band gap engineering; Thermoelectric properties; Mechanical stability; Optoelectronic devices;
Pulsed laser deposited BexZn1-xO1-ySy quaternary alloy films: structure, composition, and band gap bowing
Keywords: مهندسی باند پهن; Quaternary BeZnOS alloy films; Pulsed laser deposition; Solubility limits; Band gap engineering;
Nitrogen incorporation during PVD deposition of TiO2:N thin films
Keywords: مهندسی باند پهن; TiO2; PVD; Tauc plot; Band gap engineering;
Electronic and phononic modulation of MoS2 under biaxial strain
Keywords: مهندسی باند پهن; MoS2; DFT; Phonon softening; Specific heat; 2D material; Band gap engineering;
Preparation and band gap tailing of ternary Zn1âxCdxWO4 nanocrystals by mechanical alloying
Keywords: مهندسی باند پهن; ZnCdWO4; Ternary oxide semiconductors; Nanocrystals; Mechanical alloying; Band gap engineering;
Band gap engineering and visible light response for GaS monolayer by isovalent anion-cation codoping
Keywords: مهندسی باند پهن; Band gap engineering; Photochemistry; GaS monolayer;
Inter-molecular interaction in Polypyrrole/TiO2: A DFT study
Keywords: مهندسی باند پهن; Band gap engineering; Non-covalent interaction; Photocatalysis; Redox potential;
Band gap engineering of Gd and Co doped BiFeO3 and their application in hydrogen production through photoelectrochemical route
Keywords: مهندسی باند پهن; BiFeO3 doped; Band gap engineering; Photoelectrochemical; Hydrogen production;
Influence of Germanium source on dopingless tunnel-FET for improved analog/RF performance
Keywords: مهندسی باند پهن; Tunnel field effect transistor (TFETs); Band-to-band tunneling (BTBT); Charge plasma; Band gap engineering; Germanium (Ge); Analog FOMs; RF FOMs; TCAD;
Band gap engineering of Cu3FexSn(1-x)S4: A potential absorber material for solar energy
Keywords: مهندسی باند پهن; Cu2FeSnS4; Quaternary chalcogenides; Microstructure; Nanocrystalline materials; Band gap engineering;
First-principles calculations of electronic and optical properties of Fe1âxZnxS2 and Zn1âxMgxO alloys
Keywords: مهندسی باند پهن; Electron affinity; Band gap engineering; Absorption coefficient; FP-LAPW method;
Chalcogenide perovskites - an emerging class of ionic semiconductors
Keywords: مهندسی باند پهن; Chalcogenide perovskite; Sulfurization; Band gap engineering; Ionic semiconductor;
Strain induced phase formation, microstructural evolution and bandgap narrowing in strained TiO2 nanocrystals grown by ball milling
Keywords: مهندسی باند پهن; TiO2 nanocrystals; Strain; Williamson-Hall plot; Phase formation; Band gap engineering;
Engineering of the electronic structure of graphene monoxide by out of plane and in-plane strains investigated by DFT
Keywords: مهندسی باند پهن; Graphene monoxide nano-sheet; Band gap engineering; DOS; Density functional theory; Mulliken populations;
Strain effects on the electronic structure of ZnSnP2 via modified Becke–Johnson exchange potential
Keywords: مهندسی باند پهن; Biaxial strain; Band gap engineering; Electronic structure
Structural, optical and photocatalytic properties of (Mg,Al)-codoped ZnO powders prepared by sol-gel method
Keywords: مهندسی باند پهن; (Mg,Al)-codoped ZnO powders; Sol-gel method; Band gap engineering; Photoluminescence; Photocatalytic activity;
Structural and optical properties of (Mg,Al)-codoped ZnO nanoparticles synthesized by the autocombustion method
Keywords: مهندسی باند پهن; (Mg,Al)-codoped ZnO nanoparticles; Autocombustion; Band gap engineering; Photoluminescence
Structural, optical, and electrical characteristics of AlN:Ho thin films irradiated with 700Â keV protons
Keywords: مهندسی باند پهن; AlN:Ho; Proton Irradiation; Band gap engineering; Defects;
Se concentration dependent band gap engineering in ZnO1-xSex thin film for optoelectronic applications
Keywords: مهندسی باند پهن; ZnO; Selenium; PLD; Band gap engineering;
Structural and optical properties of ZnSO alloy thin films with different S contents grown by pulsed laser deposition
Keywords: مهندسی باند پهن; ZnSO thin films; Band gap engineering; Optical property; Pulsed laser deposition;
Ab initio design of GaN-based photocatalyst: ZnO-codoped GaN nanotubes
Keywords: مهندسی باند پهن; Gallium nitride nanotube; Zinc oxide codoping; Band gap engineering; Photocatalyst; Hydrogen generation; First-principles calculation;
SILAR-based growth of nanostructured CuO thin films from alkaline baths containing saccharin as additive
Keywords: مهندسی باند پهن; Nanoparticles; Thin films; CuO; SILAR; Band gap engineering; Saccharin
Band gap modulation of ZnCdO alloy thin films with different Cd contents grown by pulsed laser deposition
Keywords: مهندسی باند پهن; ZnCdO thin film; Band gap engineering; Photoluminescence; Pulsed laser deposition
Development of transparent conductive Mg and Ga co-doped ZnO thin films: Effect of Mg concentration
Keywords: مهندسی باند پهن; Transparent conducting oxide (TCO); Mg and Ga co-doped ZnO (MGZO); Thin films; Band gap engineering; RF magnetron sputtering
Synthesis of MgZnO nanostructures by electrochemical method
Keywords: مهندسی باند پهن; MgZnO; Nanostructure; Band gap engineering; Electrochemical deposition
Electronic structures of zigzag AlN, GaN nanoribbons and AlxGa1−xN nanoribbon heterojunctions: First-principles study
Keywords: مهندسی باند پهن; First-principles; Electronic structure; Nanoribbon; Band gap engineering
Synthesis, structure, and photoluminescence properties of ZnSSe alloy nanorods
Keywords: مهندسی باند پهن; ZnSSe nanorods; Band gap engineering; Electron microscopy; Photoluminescence spectroscopy;
Band gap engineering by anion doping in the photocatalyst BiTaO4: First principle calculations
Keywords: مهندسی باند پهن; Band gap engineering; Photocatalysis; Anionic doping in BiTaO4
Transition from optically inactive to active Mg-chalcogenides: A first principle study
Keywords: مهندسی باند پهن; Optoelectronics; Chalcogenides; Semiconductors; Band gap engineering
Quantum confinement effects and band gap engineering of SnO2 nanocrystals in a MgO matrix
Keywords: مهندسی باند پهن; Band gap engineering; SnO2-MgO composite thin films; Nanocrystalline films; Quantum confinement;
BE-TANOS: Feasibility and technology limitations
Keywords: مهندسی باند پهن; Silicon nitride charge trapping memories; Band Gap Engineering; BE-TANOS
Growth and characterization of ZnMgSrO thin films lattice-matched to ZnO and with deep-UV energy band gap
Keywords: مهندسی باند پهن; Zinc Oxide; ZnMgSrO; Thin Films; UV light emitting diodes; Band gap engineering; X-ray diffraction; Scanning electron microscopy; Sputtering
Structural, morphological and optical properties of Bi2−xSbxSe3 thin films grown by electrodeposition
Keywords: مهندسی باند پهن; Bi2−xSbxSe3; Alloy; Thin films; Electrodeposition; Band gap engineering
AlN, GaN, AlxGa1 − xN nanotubes and GaN/AlxGa1 − xN nanotube heterojunctions
Keywords: مهندسی باند پهن; III–V nanotubes; Electronic structure; Alloys; Heterojunctions; Band gap engineering
Evaluation of layered tunnel barrier charge trapping devices for embedded non-volatile memories
Keywords: مهندسی باند پهن; Charge-trapping memory device; Data retention; ONO; High-k; Metal gate; Band gap engineering; Non-volatile memory; Flash; EEPROM; Reliability
Synthesis and optical properties of Ga2S3–Na2S–CsCl glasses
Keywords: مهندسی باند پهن; Gallium sodium sulfide glass synthesis; Chalcogenide glass; Band gap engineering; Refractive-index dispersion; Frequency-domain interferometry; Energy-dispersive X-ray spectroscopy; Chemical durability
Electrical switching properties of nanostructured multilayer superlattice Ge–Si…Cu…Si–Ge prepared by electron beam evaporation on glass
Keywords: مهندسی باند پهن; Multi-layer superlattice Ge–Si…Cu…Si–Ge; Amorphous semiconductors; Switching and memory components; Band gap engineering
Synthesis and characterization of environmentally benign calcium-doped Pr2Mo2O9 pigments: Applications in coloring of plastics
Keywords: مهندسی باند پهن; Novel rare earth yellow pigments; Environmentally benign; Band gap engineering; Coloring of plastics
Growth of ZnO/Zn1âxMgxO films by pulsed laser ablation
Keywords: مهندسی باند پهن; ZnO; ZnMgO; Laser ablation; Band gap engineering; Luminescence;