Keyphrases
PCPDTBT
100%
Hybrid Solar Cells
100%
Bulk Heterojunction
100%
Low Molecular Weight
100%
Device Performance
100%
Performance Stability
100%
Improved Device
100%
CdTe Quantum Dots
42%
Long-term Stability
28%
High Efficiency
14%
High Molecular Weight
14%
Solar Cell
14%
Nanomorphology
14%
Photovoltaic Performance
14%
Glove Box
14%
Hybrid Film
14%
Solar Cell Devices
14%
2,1,3-benzothiadiazole
14%
Dithiophene
14%
Average Power
14%
Power Conversion Efficiency
14%
Polymer Matrix
14%
Quantum Dots
14%
Device Stability
14%
Optical Energy Gap
14%
Electron Acceptor
14%
Polymer Hybrid
14%
Electron Donor
14%
Hybrid Polymer
14%
Molecular Weight Effect
14%
Performance over Time
14%
Low Band Gap Polymer
14%
Morphology Investigation
14%
INIS
stability
100%
devices
100%
performance
100%
hybrids
100%
molecular weight
100%
heterojunctions
100%
solar cells
100%
polymers
57%
cadmium selenides
42%
efficiency
28%
films
14%
investigations
14%
comparative evaluations
14%
distribution
14%
power
14%
matrices
14%
morphology
14%
encapsulation
14%
conversion
14%
storage
14%
energy gap
14%
preservation
14%
quantum dots
14%
electron donor
14%
electron acceptor
14%
hydrogen 4
14%
gloveboxes
14%
Material Science
Heterojunction
100%
Hybrid Solar Cells
100%
Solar Cell
50%
Film
25%
Quantum Dot
25%
Conjugated Polymer
25%
Photovoltaic Performance
25%
Polymer Matrix
25%
Chemical Engineering
Conjugated Polymer
100%
Film
100%