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Volumn , Issue , 2009, Pages 000462-000464
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Analysis and modeling of space radiation effects in quantum dot based nanomaterials for high-efficiency photovoltaic cells
a
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Author keywords
[No Author keywords available]
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Indexed keywords
ANALYSIS AND MODELING;
DRIFT DIFFUSION;
EXPERIMENTAL INVESTIGATIONS;
HIGH EFFICIENCY;
HIGH RADIATION ENVIRONMENT;
LIGHT WEIGHT;
MODELING TOOL;
NANO SCALE;
NANO-MATERIALS;
NOVEL DEVICES;
NUMERICAL MODELS;
QUANTUM DOT;
QUANTUM DOT SUPERLATTICES;
QUANTUM DOTS;
QUANTUM MECHANICAL MODEL;
RADIATION ENVIRONMENTS;
RADIATION HARDNESS;
RADIATION-INDUCED DEGRADATION;
SATELLITE SYSTEM;
SIMULATION SOFTWARE;
SPACE RADIATION EFFECTS;
TECHNOLOGY COMPUTER AIDED DESIGN;
TEST DATA;
CELLS;
COMPUTER AIDED DESIGN;
COMPUTER SIMULATION;
COMPUTER SOFTWARE;
DEGRADATION;
NANOSTRUCTURED MATERIALS;
OPTOELECTRONIC DEVICES;
PHOTOVOLTAIC CELLS;
PROTON IRRADIATION;
SEMICONDUCTOR QUANTUM DOTS;
SOLAR CELLS;
RADIATION EFFECTS;
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EID: 77951558461
PISSN: 01608371
EISSN: None
Source Type: Conference Proceeding
DOI: 10.1109/PVSC.2009.5411642 Document Type: Conference Paper |
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Times cited : (3)
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References (6)
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