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Charge Carrier Dynamics in Novel Solar Materials: Ultrafast Spectroelectrochemistry
Alireza Honarfar
Lund University
Research output
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Thesis
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Doctoral Thesis (compilation)
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Research output
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Dive into the research topics of 'Charge Carrier Dynamics in Novel Solar Materials: Ultrafast Spectroelectrochemistry'. Together they form a unique fingerprint.
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Chemistry
Quantum Dot
100%
Spectroelectrochemistry
100%
Procedure
36%
Electrochemistry
36%
Energy
27%
Phase Composition
18%
Photoexcitation
18%
Electron Energy Level
18%
Spectroscopy
9%
Excited State
9%
Molecule
9%
Charge Separation
9%
Iron
9%
Ruthenium
9%
Dye-Sensitized Solar Cell
9%
Ultrafast Spectroscopy
9%
Conjugated Polymer
9%
Organic Solar Cells
9%
Pump
9%
Energy Conversion
9%
Material Science
Quantum Dot
100%
Charge Carrier
100%
Solar Cell
18%
Titanium Dioxide
18%
Chemical Engineering
Iron
50%
Conjugated Polymer
50%
Ruthenium
50%
Perovskite
50%
Physics
Electrochemistry
36%
Photoexcitation
18%
Solar Cell
18%
Energy Levels
18%
Model
9%
Molecules
9%
Physics
9%
Utilization
9%
Sun
9%
Excitation
9%
Ruthenium
9%
Perovskites
9%
Dye-Sensitized Solar Cell
9%
Photoanode
9%