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Insights into the Degradation of Amorphous Silicon Passivation Layer for Heterojunction Solar Cells
Simone Bernardini,
Mariana Bertoni
QESST ERC Consortium
Electrical, Computer, and Energy Engineering, School of (IAFSE-ECEE)
Electrical Engineering
Sustainability Initiative
Research output
:
Contribution to journal
›
Article
›
peer-review
17
Scopus citations
Overview
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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%