Insights into the Degradation of Amorphous Silicon Passivation Layer for Heterojunction Solar Cells

Engineering & Materials Science

• Amorphous silicon 88%
• Heterojunctions 84%
• Passivation 78%
• Solar cells 68%
• Crystalline materials 68%
• Degradation 45%
• Silicon 38%
• Hydrogen 25%
• Silicon solar cells 22%
• Annealing 16%
• Temperature 12%
• Substrates 11%
• Recovery 10%

Chemical Compounds

• Surface Recombination 100%
• Amorphous Silicon 88%
• Chemical Passivation 65%
• Solar Cell 56%
• Velocity 54%
• Amorphous Material 22%
• Hydrogen 16%
• Time 11%

Physics & Astronomy

• passivity 60%
• amorphous silicon 59%
• heterojunctions 57%
• solar cells 48%
• life (durability) 26%
• modules 21%
• silicon 20%
• injection 18%
• performance 17%
• recovery 10%
• engineering 9%
• hydrogen 7%
• causes 7%
• annealing 7%
• temperature 7%
• decay 7%