High-Mobility TCO-Based Contacting Schemes for c-Si Solar Cells

INIS

• mobility 100%
• oxides 100%
• silicon 100%
• silicon solar cells 100%
• solar cells 100%
• layers 66%
• efficiency 50%
• heterojunctions 50%
• budgets 33%
• carriers 33%
• devices 33%
• doped materials 33%
• magnetrons 16%
• design 16%
• laboratories 16%
• silver 16%
• deposits 16%
• production 16%
• surfaces 16%
• power 16%
• sheets 16%
• conversion 16%
• tungsten 16%
• market 16%
• sputtering 16%
• fluorine 16%
• carrier mobility 16%
• films 16%
• metals 16%
• absorption 16%
• copper 16%
• transport 16%
• sustainability 16%
• architecture 16%
• hydrogenation 16%
• performance 16%
• stacks 16%
• indium oxides 16%
• industry 16%
• tin 16%
• electrodes 16%
• availability 16%

Material Science

• Solar Cell 100%
• Crystalline Silicon Solar Cell 100%
• Oxide Compound 100%
• Silicon 83%
• Heterojunction 50%
• Photovoltaics 33%
• Indium 16%
• Silver 16%
• Copper 16%
• Carrier Mobility 16%
• Metal 16%
• Tin 16%
• Magnetron Sputtering 16%
• Electrode 16%
• Devices 16%
• Crystalline Material 16%
• Tungsten 16%
• Surface 16%
• Carrier Transport 16%
• Amorphous Silicon 16%
• Indium Tin Oxide 16%

Engineering

• Conductive 100%
• Solar Cell 80%
• Oxide Layer 60%
• Based Solar Cell 40%
• Copper (Cu) 20%
• Hydrogenated Amorphous Silicon 20%
• Cell Performance 20%
• Silicon Technology 20%
• Field Side 20%
• Surface Field 20%
• Development 20%
• High Efficiency 20%
• Device Structure 20%
• Photovoltaic Industry 20%
• Silicon Layer 20%
• Crystalline Silicon 20%
• Photovoltaic Modules 20%
• Sheet Resistance 20%
• Cell Design 20%
• Sustainable Development 20%
• Power Conversion Efficiency 20%