Linker Effects on Exciton Migration and Charge Transfer of

migration. S C12H25 C12H25 N N S n S C12H25 C 12 H 25 N N S n N N S S C12H25 C 12 H 25 n DA1 DA2 DA3 Qiquan ...
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Linker Effects on Exciton Migration and Charge Transfer of Conjugated Polymers Qiquan Qiao, Center for Advanced Photovoltaics, Electrical Engineering, South Dakota State University, Brookings, SD 57007

N

S

N C12H25

C12H25

1.0

DA1

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S

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N C12H25

C12H25

DA2

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n N

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N

C12H25

C12H25 S

DA3 n

Fluorescence intensity (a. u.)

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0.5

DA1 λem=580 nm

0.0 1.0 0.5

DA2 λem=640 nm

0.0 1.0 0.5 0.0

DA3 λem=580 nm 0

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Time (ps)

The femtosecond up-conversion fluorescence measurement showed that DA1 and DA3 exhibited a rise process for the energetically downhill excitonic energy transfer (EET) in a timescale of sub-ps to several ps, while DA2 exhibited a decay process in such downhill EET. DA2 showed the shortest time constant of ~ 4.6 ps for torsional relaxation. This suggested that the vinylene linker has the fastest torsional relaxation from a flexible ground-state structure to a more rigid planar geometry, which may reduce conformational defects and improve exciton migration.