Amine-based interfacial molecules for inverted polymer-based optoelectronic devices

Bo Ram Lee; Seungjin Lee; Jong Hyun Park; Eui Dae Jung; Jae Choul Yu; Yun Seok Nam; Jinhee Heo; Ju Young Kim; Byeong-Su Kim; Myoung Hoon Song

doi:10.1002/adma.201500663

Amine-based interfacial molecules for inverted polymer-based optoelectronic devices

Bo Ram Lee, Seungjin Lee, Jong Hyun Park, Eui Dae Jung, Jae Choul Yu, Yun Seok Nam, Jinhee Heo, Ju Young Kim, Byeong-Su Kim, Myoung Hoon Song

Department of Chemistry

Research output: Contribution to journal › Article

50 Citations (Scopus)

Abstract

The change in the work function (WF) of ZnO with amine-based interfacial molecules (AIM) can be controlled by the number of amine groups. AIM with a larger amine group can induce a stronger interface dipole between the amine groups and the ZnO surface, leading to a greater reduction of the WF.

Original language	English
Pages (from-to)	3553-3559
Number of pages	7
Journal	Advanced Materials
Volume	27
Issue number	23
DOIs	https://doi.org/10.1002/adma.201500663
Publication status	Published - 2015 Jun 1

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Optoelectronic devices

Amines

Polymers

Molecules

All Science Journal Classification (ASJC) codes

Materials Science(all)
Mechanics of Materials
Mechanical Engineering

Cite this

Lee, B. R., Lee, S., Park, J. H., Jung, E. D., Yu, J. C., Nam, Y. S., ... Song, M. H. (2015). Amine-based interfacial molecules for inverted polymer-based optoelectronic devices. Advanced Materials, 27(23), 3553-3559. https://doi.org/10.1002/adma.201500663

Lee, Bo Ram ; Lee, Seungjin ; Park, Jong Hyun ; Jung, Eui Dae ; Yu, Jae Choul ; Nam, Yun Seok ; Heo, Jinhee ; Kim, Ju Young ; Kim, Byeong-Su ; Song, Myoung Hoon. / Amine-based interfacial molecules for inverted polymer-based optoelectronic devices. In: Advanced Materials. 2015 ; Vol. 27, No. 23. pp. 3553-3559.

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abstract = "The change in the work function (WF) of ZnO with amine-based interfacial molecules (AIM) can be controlled by the number of amine groups. AIM with a larger amine group can induce a stronger interface dipole between the amine groups and the ZnO surface, leading to a greater reduction of the WF.",

author = "Lee, {Bo Ram} and Seungjin Lee and Park, {Jong Hyun} and Jung, {Eui Dae} and Yu, {Jae Choul} and Nam, {Yun Seok} and Jinhee Heo and Kim, {Ju Young} and Byeong-Su Kim and Song, {Myoung Hoon}",

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Lee, BR, Lee, S, Park, JH, Jung, ED, Yu, JC, Nam, YS, Heo, J, Kim, JY, Kim, B-S & Song, MH 2015, 'Amine-based interfacial molecules for inverted polymer-based optoelectronic devices', Advanced Materials, vol. 27, no. 23, pp. 3553-3559. https://doi.org/10.1002/adma.201500663

Amine-based interfacial molecules for inverted polymer-based optoelectronic devices. / Lee, Bo Ram; Lee, Seungjin; Park, Jong Hyun; Jung, Eui Dae; Yu, Jae Choul; Nam, Yun Seok; Heo, Jinhee; Kim, Ju Young; Kim, Byeong-Su; Song, Myoung Hoon.

In: Advanced Materials, Vol. 27, No. 23, 01.06.2015, p. 3553-3559.

Research output: Contribution to journal › Article

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AU - Lee, Bo Ram

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AU - Jung, Eui Dae

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AU - Nam, Yun Seok

AU - Heo, Jinhee

AU - Kim, Ju Young

AU - Kim, Byeong-Su

AU - Song, Myoung Hoon

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AB - The change in the work function (WF) of ZnO with amine-based interfacial molecules (AIM) can be controlled by the number of amine groups. AIM with a larger amine group can induce a stronger interface dipole between the amine groups and the ZnO surface, leading to a greater reduction of the WF.

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Lee BR, Lee S, Park JH, Jung ED, Yu JC, Nam YS et al. Amine-based interfacial molecules for inverted polymer-based optoelectronic devices. Advanced Materials. 2015 Jun 1;27(23):3553-3559. https://doi.org/10.1002/adma.201500663

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