Irradiation-induced molecular dipole reorientation in inverted polymer solar cell using small molecular electron collection layer

Zai-Quan Xu; Fu-Zhou Sun; Jian Li; Shuit-Tong Lee; Yan-Qing Li; Jian-Xin Tang

doi:10.1063/1.3663548

Irradiation-induced molecular dipole reorientation in inverted polymer solar cell using small molecular electron collection layer

Zai-Quan Xu, Fu-Zhou Sun, Jian Li, Shuit-Tong Lee, Yan-Qing Li, Jian-Xin Tang

Centre of Super-Diamond and Advanced Films

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

6 Citations (Scopus)

Abstract

Inverted polymer solar cell is developed using small molecular tris(8-hydroxyquinolinato) aluminum (Alq₃) as an electron collection layer between the active layer and indium-tin-oxide bottom cathode. Upon post-processing light irradiation by simulated solar illumination, the open-circuit voltage of the inverted device increases from 0.52 V to 0.60 V, resulting in the enhancement of the power conversion efficiency from 2.54 to 3.33 with negligible change in the short-circuit current. The performance improvement is attributed to the removal of surface potential due to irradiation-induced molecular dipole reorientation in the Alq₃ layer, which reduces the charge transport barrier and improves the charge collection efficiency. © 2011 American Institute of Physics.

Original language	English
Article number	203301
Journal	Applied Physics Letters
Volume	99
Issue number	20
DOIs	https://doi.org/10.1063/1.3663548
Publication status	Published - 14 Nov 2011

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title = "Irradiation-induced molecular dipole reorientation in inverted polymer solar cell using small molecular electron collection layer",

abstract = "Inverted polymer solar cell is developed using small molecular tris(8-hydroxyquinolinato) aluminum (Alq3) as an electron collection layer between the active layer and indium-tin-oxide bottom cathode. Upon post-processing light irradiation by simulated solar illumination, the open-circuit voltage of the inverted device increases from 0.52 V to 0.60 V, resulting in the enhancement of the power conversion efficiency from 2.54 to 3.33 with negligible change in the short-circuit current. The performance improvement is attributed to the removal of surface potential due to irradiation-induced molecular dipole reorientation in the Alq3 layer, which reduces the charge transport barrier and improves the charge collection efficiency. {\textcopyright} 2011 American Institute of Physics.",

author = "Zai-Quan Xu and Fu-Zhou Sun and Jian Li and Shuit-Tong Lee and Yan-Qing Li and Jian-Xin Tang",

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T1 - Irradiation-induced molecular dipole reorientation in inverted polymer solar cell using small molecular electron collection layer

AU - Xu, Zai-Quan

AU - Sun, Fu-Zhou

AU - Li, Jian

AU - Lee, Shuit-Tong

AU - Li, Yan-Qing

AU - Tang, Jian-Xin

PY - 2011/11/14

Y1 - 2011/11/14

N2 - Inverted polymer solar cell is developed using small molecular tris(8-hydroxyquinolinato) aluminum (Alq3) as an electron collection layer between the active layer and indium-tin-oxide bottom cathode. Upon post-processing light irradiation by simulated solar illumination, the open-circuit voltage of the inverted device increases from 0.52 V to 0.60 V, resulting in the enhancement of the power conversion efficiency from 2.54 to 3.33 with negligible change in the short-circuit current. The performance improvement is attributed to the removal of surface potential due to irradiation-induced molecular dipole reorientation in the Alq3 layer, which reduces the charge transport barrier and improves the charge collection efficiency. © 2011 American Institute of Physics.

AB - Inverted polymer solar cell is developed using small molecular tris(8-hydroxyquinolinato) aluminum (Alq3) as an electron collection layer between the active layer and indium-tin-oxide bottom cathode. Upon post-processing light irradiation by simulated solar illumination, the open-circuit voltage of the inverted device increases from 0.52 V to 0.60 V, resulting in the enhancement of the power conversion efficiency from 2.54 to 3.33 with negligible change in the short-circuit current. The performance improvement is attributed to the removal of surface potential due to irradiation-induced molecular dipole reorientation in the Alq3 layer, which reduces the charge transport barrier and improves the charge collection efficiency. © 2011 American Institute of Physics.

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DO - 10.1063/1.3663548

M3 - RGC 21 - Publication in refereed journal

SN - 0003-6951

VL - 99

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 20

M1 - 203301

ER -

Irradiation-induced molecular dipole reorientation in inverted polymer solar cell using small molecular electron collection layer

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