Keywords: چند سلول خورشیدی; Photovoltaics; Multi-junction solar cells; Electrical characterization; Spectral performance; Mathematical modelling;
مقالات ISI چند سلول خورشیدی (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: چند سلول خورشیدی; Active silicon substrate; Detailed balance; Limiting efficiency; Multi-junction solar cells;
Keywords: چند سلول خورشیدی; p-Type nanocrystalline silicon oxide; Thin-film silicon solar cells; Multi-junction solar cells; High Voc; Window layer;
Keywords: چند سلول خورشیدی; Multi-junction solar cells; Simulation methods; Artificial neural networks
Keywords: چند سلول خورشیدی; Multi-junction solar cells; Kelvin probe force microscopy; High-efficiency solar cells; Epitaxial structures; In-situ illumination; III–V Semiconductors
Keywords: چند سلول خورشیدی; Thin-film silicon; Spectral utilization; Light management; Optical modelling; Multi-junction solar cells; Quadruple junction
Keywords: چند سلول خورشیدی; Organic photovoltaics; Tandem solar cells; Multi-junction solar cells; Roll-to-roll; Life-cycle assessment; Energy payback time
Keywords: چند سلول خورشیدی; Multi-junction solar cells; Characterization; Temperature dependence; Temperature coefficient; CPV; Space;
Keywords: چند سلول خورشیدی; Polymer solar cells; Multi-junction solar cells; Tandem structure; Polymers;
Keywords: چند سلول خورشیدی; High concentrating photovoltaic; Immersion cooling liquids; Optical transmittance; Durability; Multi-junction solar cells;
GaAsP/Si tandem solar cells: In situ study on GaP/Si:As virtual substrate preparation
Keywords: چند سلول خورشیدی; Metalorganic vapor phase epitaxy; III-V-on-silicon; Multi-junction solar cells; Surface structure; Reflection anisotropy spectroscopy; As-ambient;
GaAsP/Si tandem solar cells: Realistic prediction of efficiency gain by applying strain-balanced multiple quantum wells
Keywords: چند سلول خورشیدی; Strain-balanced-multi-quantum wells; Multi-junction solar cells; Efficiency; III-V-on-silicon; Quantum well devices; Charge carrier collection efficiency;
Highly oriented CuInS2 thin films on graphene electrodes for solar-cell applications
Keywords: چند سلول خورشیدی; Graphene; Compound semiconductors; Thin-film solar cells; Multi-junction solar cells;
Experimental study of liquid-immersion III-V multi-junction solar cells with dimethyl silicon oil under high concentrations
Keywords: چند سلول خورشیدی; Multi-junction solar cells; Electrical characteristics; Spectrum transmittance; Liquid thickness; Dimethyl silicon oil;
Application of LBIC measurements for characterisation of triple junction solar cells
Keywords: چند سلول خورشیدی; Multi-junction solar cells; Characterisation; LBIC; Concentrator photovoltaics; Device parameters; Performance parameters
Composition dependent growth dynamics in molecular beam epitaxy of GaInNAs solar cells
Keywords: چند سلول خورشیدی; Plasma-assisted molecular beam epitaxy; Multi-junction solar cells; Dilute nitrides; GaInNAs; Concentrated photovoltaics;
Sizing of a stand alone concentrated photovoltaic system in Egyptian site
Keywords: چند سلول خورشیدی; Stand alone photovoltaic system; Concentrator solar photovoltaic system; Multi-junction solar cells; Sun tracking systems
Extended description of tunnel junctions for distributed modeling of concentrator multi-junction solar cells
Keywords: چند سلول خورشیدی; Solar concentrator; CPV; Multi-junction solar cells; Tunnel junction
Application of high mobility transparent conductors to enhance long wavelength transparency of the intermediate solar cell in multi-junction solar cells
Keywords: چند سلول خورشیدی; High mobility TCO; CdTe; Multi-junction solar cells; Bifacial solar cells; Optical losses
Super high-efficiency multi-junction and concentrator solar cells
Keywords: چند سلول خورشیدی; Multi-junction solar cells; III–V compounds; Concentrator solar cells; Concentrator modules; High conversion efficiency; Tunnel junction
Amorphous and nanocrystalline silicon-based multi-junction solar cells
Keywords: چند سلول خورشیدی; Amorphous silicon; Nanocrystalline silicon; Solar cells; Multi-junction solar cells;
A novel approach for the modeling of advanced photovoltaic devices using the SILVACO/ATLAS virtual wafer fabrication tools
Keywords: چند سلول خورشیدی; Modeling of solar cells; Multi-junction solar cells; Virtual growth of crystals; Simulation;