Positron Annihilation Studies on Thin Film Solar Cells: CdSe and PbSe Quantum Dot Thin Films and Cu(In1-xGax)Se2 Layered Systems

INIS

• annihilation 100%
• quantum dots 100%
• positrons 100%
• lead selenides 100%
• thin films 100%
• cadmium selenides 100%
• solar cells 100%
• efficiency 77%
• surfaces 55%
• cost 44%
• semiconductor materials 33%
• silicon 33%
• stability 33%
• market 22%
• applications 22%
• excitons 22%
• probes 22%
• synthesis 22%
• energy demand 22%
• control 11%
• increasing 11%
• durability 11%
• laboratories 11%
• traps 11%
• sensitivity 11%
• manufacturing 11%
• energy 11%
• low temperature 11%
• supply 11%
• interactions 11%
• glass 11%
• plates 11%
• electronic structure 11%
• space 11%
• lead sulfides 11%
• defects 11%
• devices 11%
• ligands 11%
• tools 11%
• renewable energy sources 11%
• size 11%
• vacancies 11%
• photons 11%
• depth 11%
• deposition 11%

Engineering

• Film Solar Cell 100%
• Solar Cell 83%
• Semiconductor Quantum Dot 50%
• Photovoltaics 50%
• Based Solar Cell 33%
• High Efficiency 33%
• Energy Gap 16%
• Global Energy Demand 16%
• Term Stability 16%
• Glass Plate 16%
• Limitations 16%
• Powerful Tool 16%
• Structure Surface 16%
• Related Defect 16%
• Mechanisms 16%
• Electronics 16%
• Large Area 16%
• Shockley 16%
• Energy Demand 16%
• Degradation Mechanism 16%
• High Energy 16%
• Determines 16%
• Experiments 16%
• Low-Temperature 16%
• High Cost 16%

Material Science

• Solar Cell 100%
• Quantum Dot 100%
• Semiconductor Material 33%
• Surface Structure 33%
• Silicon 22%
• Probe 22%
• Temperature 11%
• Glass 11%
• Devices 11%
• Durability 11%
• Electronic Structure 11%