Keyphrases
Oligothiophene
100%
Solar Energy
100%
Metallopolyynes
100%
Electron-rich
100%
Phenothiazine
100%
Power Conversion Efficiency
66%
Thienyl
66%
Light Harvesting
33%
Simulated Sunlight
33%
Polymer Chain
33%
Metallopolymers
33%
Solar Cell Parameters
33%
Power Dependence
33%
Open-circuit Voltage
33%
External Quantum Efficiency
33%
Solution Process
33%
Solar Cell Efficiency
33%
Bulk Heterojunction Polymer Solar Cells
33%
Blending Ratio
33%
Fill Factor
33%
Short-circuit Current Density
33%
Polymer Solar Cells
33%
Dinuclear
33%
Optical Properties
33%
Platinum(II)
33%
Photoinduced Electron Transfer
33%
[6,6]-phenyl-C61-butyric Acid Methyl Ester
33%
Photoexcitation
33%
Electron Donor
33%
Electron Acceptor
33%
Absorptive Capacity
33%
Absorption Spectra
33%
Model Complex
33%
Organometallic Polymers
33%
Photovoltaic Properties
33%
Methanofullerene
33%
Air Mass
33%
Under Air
33%
Spectral Region
33%
Donor-acceptor Blend
33%
Chemistry
Donor
100%
Solar Energy
100%
Solar Cell
100%
Phenothiazine
100%
Polymer Solar Cell
100%
Optical Property
50%
Polymer Chain
50%
Methyl Ester
50%
Butyric Acid
50%
Electron Transport
50%
Light Harvesting
50%
Photoexcitation
50%
Electron Acceptor
50%
Metallocene
50%
Photovoltaic Effect
50%
Illumination
50%
Electron Donor
50%
Current Density
50%
Material Science
Polymer Solar Cell
100%
Electronic Circuit
100%
Solar Cell
100%
Density
50%
Photovoltaics
50%
Heterojunction
50%
Electron Transfer
50%
Platinum
50%
Organometallic Polymer
50%
Chemical Engineering
Organometallics
100%
Butyric Acid
100%