Dynamics of excitons and carriers at the NPB/C60 interface by transient photocurrents

The transient photocurrent (TPC) technique was performed to explore the dynamics of excitons and carriers at organic active layer/buffer layer interfaces. A special device with ITO/PEIE/NPB/C60/Al structure was designed to study the interfacial processes at the NPB/C60 interface. An external electri...

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Bibliographic Details
Published in:Current applied physics 2020, 20(5), , pp.648-652
Main Authors: Li, Ping, De Yang, Xiu, Wu, Bo, Zhang, Yu, Jiang, Ze Zhuan, Bao, Xi, Huang, Hai Shen
Format: Article
Language:English
Subjects:
Exciton
Free carriers
interface
NPB/C60
Transient photocurrent
물리학
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Summary:The transient photocurrent (TPC) technique was performed to explore the dynamics of excitons and carriers at organic active layer/buffer layer interfaces. A special device with ITO/PEIE/NPB/C60/Al structure was designed to study the interfacial processes at the NPB/C60 interface. An external electrical field was provided to neutralize the built-in electrical field of the device. Interestingly, a new phenomenon was observed, wherein the polarity of the TPC changed from negative to positive under an external electrical field. The initial negative signal was ascribed to exciton separation by the built-in field in C60, and the subsequent positive signal can be attributed to the diffusion of electrons that accumulate at the NPB/C60 interface. TPC measurements shown that further increasing the external electrical field causes polarity to change twice. Analyzing the two changes in polarity revealed that the NPB did not only extract holes from C60 but also provided an effective interface for exciton dissociation. [Display omitted] •The dynamic process of excitons and carriers were explored by TPC.•The polarity of the TPC changes from negative to positive.•Changes in polarity shows NPB facilitates hole extraction and exciton dissociation.
ISSN:1567-1739
1878-1675
DOI:10.1016/j.cap.2020.02.015